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NASA SP-7037 (320) August 1995
A CONTINUING BIBLIOGRAPHY WITH INDEXES
The NASA STI Office m m m in Profile
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NASA SP-7037 (320) August 1995
AERONAUTICAL ENGINEERING
A CONTINUING BIBLIOGRAPHY WITH INDEXES
National Aeronautics and Space Administration Scientific and Technical information Office
1995 washingtoo. Dc
The New NASA Video Catalog is Here
To order your free copy call the NASAAccess Help Desk at
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This publication was prepared by the NASA Center for Aerospace Information, 800 Elkridge Landing Road, Linthicum Heights, MD 21090-2934, (301) 621-0390.
INTRODUCTION
This issue of Aeronautical Engineering - A Continuing Bibliography with Indexes(NASA SP-7037) lists 193 reports, journal articles, and other documents recently announced in the NASA STI Database.
Accession numbers cited in this issue include: Scientific and Technical Aempace Reports (STAR) (N-1 oo00 Series) N95-24195 - N95-26341
A9577373 - m5-02073 The coverage includes documents on the engineering and theoretical aspects of design, construc- tion, evaluation, testing, operation, and performance of aircraft (including aircraft engines) and associated components, equipment, and systems. It also includes research and development in aerodynamics, aeronautics, and ground support equipment for aeronautical vehicles.
Open Literature (A-60000 Series)
Each entry in the publication consists of a standard bibliographic citation accompanied, in most cases, by an abstract. The listing of the entries is arranged by the first nine STAR specifii cat+ gories and the remaining STAR major categories. This arrangement offers the user the most advantageous breakdown for individual objectives. The citations include the original accession numbers from the respective announcement journals.
Seven indexes--subject, personal author, corporate source, foreign technology, contract number, report number, and accession number-are included.
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7/95
TABLE OF CONTENTS
Category01 Aeronautics
Category02 Aerodynamics Includes aerodynamicsof bodies, combinations, wings, rotors, and control surfaces; and internal flow in ducts and turbomachinery.
Category 03 Air Transportation and Safety Includes passenger and cargo air transport operations; and aircraft accidents.
Category 04 Aircraft Communications and Navigation Includes digital and voice communication with aircraft; air navigation systems (satellite and ground based); and air traffic control.
Category 05 Aircraft Design, Testing and Performance Includes aircraft simulation technology.
Category06 Aimaftlnstnancntetion Includes cockpit and cabin display devices; and flight instruments.
Category 07 Aircraft Propulsion and Power Includes prime propulsion systems and systems components, e.g., gas turbine engines and compressors; and onboard auxiliary power plants for aircraft.
Category 08 Aircraft stability and Control Includes aircraft handling qualities; piloting; flight controls; and autopilots.
Category 09 Research and Support F a c i l i i (Air) Includes airports, hangars and runways; aircraft repair and overhaul facilities; wind tunnels; shock tubes; and aircraft engine test stands.
category10 Astronautics Includes astronautics (general); astrodynamics; ground support systems and facilities (space); launch vehicles and space vehicles; space transportation; space communications, spacecraft communications, command and tracking; spacecraft design, testing and performance; spacecraft instrumentation; and spacecraft propulsion and power.
Category 11 Chemistry and Materials Includes chemistry and materials (general); composite materials; inorganic and physical chemistry; metallic materials; nonmetallic materials; propellants and fuels; and materials processing.
-ow12 Engineering Includes engineering (general); communications and radar, electronics and elecbi- cat engineering; fluid mechanics and heat transfer, instrumentation and photogra- phy; lasers and masers: mechanical engineering; q u a l i assurance and reliability; and structural mechanics.
327
329
332
NA.
334
336
338
340
340
341
343
346
Category 13 Geosciences 351 Includes geosciences (general); earth resources and remote sensing; energy production and conversion; environment pollution; geophysics; meteorology and climatology; and oceanography.
Cateogory 14 Life Sciences N.A. Includes life sciences (general); aerospace medicine; behavioral sciences; man/ system technology and life support; and space biology.
Category 15 Mathematical and Computer Sciences 358 Includes mathematical and computer sciences (general); computer operations and hardware; computer programming and software; computer systems; cybernetics: numerical analysis; statistics and probability; systems analysis; and theoretical mathematics.
Category 16 Physics 361 Includes physics (general); acoustics; atomic and molecular physics; nuclear and high-energy; optics; plasma physics; solid-state physics; and thermodynamics and statistical physics.
Category 17 Social Sciences 363 Includes social sciences (general); administration and management; documenta- tion and information science; economics and cost anaylsis; law, political science, and space policy; and urban technology and transportation.
Category 18 Space Sciences 363 Includes space sciences (general); astronomy; astrophysics; lunar and planetary exploration; solar physics; and space radiation.
Category 19 General N.A.
Subject Index ............................................................................................................................ A-1 Personal Author Index ............................................................................................................. B-1 Corporate Source Index. .......................................................................................................... C-1 Foreign Technology Index ....................................................................................................... D-1 Contract Number Index ........................................................................................................... €-I Report Number Index ............................................................................................................... F-1 Accession Number Index ....................................................................................................... G-1 Appendix .............................................................................................................................. APP-1
*
TYPICAL REPORT CITATION AND ABSTRACT
TYPICAL JOURNAL ARTICLE CITATION AND ABSTRACT
vii
AERONAUTICAL ENGINEERING A Continuing Bibliography (Supp. 320)
August 1995
Ql AERONAUTICS (GENERAL)
AS79237 STUDY OF SUBSONIC BASE CAVITY FLOWRELD STRUCTURE USING pmncu IMAGE VELOC~METRY MiCHAELJ.MOLEjLZl U n i v o f I W i a t l J ~ ‘gr. ulbane.
1452) vol. 33. IIO. 2 F e b V 1995 p. 201-209 tefs (BTN-95-ElXs5222sso781)
AWWpW9$nage velocinrebysystemtmsbeenusedtDsbdy the near-- struchrre ofahvp.dimenslarel . t)aseinfd.mcmkfiowtD determine the nuid mschansms . dobsenredbrrpedrag [email protected]&nmBmnedawt~ a range ofireemmm Maeh nmbersupw 0.8. hduhg bcal fkwfidd velocities over300 mls Effects dale w CaVityanIhe nn - VOIteX arm wake Wemekudlobe fdaldblhe elpumm . a n d diMsion ofvwtices nearIhemity,dlhaghIhe~aredsmall magnihdeandn,~cttangeinlheMI$o(famalionkcadmor pathwasobserved.ThebasecavityefIedsarealso~significantat higher fmmream velodties dLe tothe fonnabon ’ ofunlimskalher downstreamfranthebase.Thebasecavitydragredrcbknwasfand tobemakdyduetothedisphcementdthebasesurfaceloabcadion upstream of the bw-pressure wake vatices, with only a m modifi- cation in the vortex streel itself. (El)
A9541077 DETERMINATION OF PlLOTlNG FEEDBACK STRUCTURES FOR AN ALTITUDE TRACKING TASK NORlHlRO GOT0 Kylshu Univ. Fukuoka, Japan Journal of Guidance. Control. and Dynamics (ISSN 0731-5090) vol. 18, no. 1 January-FebNety 1995 p. 163-185 refs
Thefeedbadcstmcumenpbyedbyalepbtinasysbm~a choiceoffeedbadcstnrchresis- . LsingenMenaibCelion methodwhich~meubrsgressrve . schmemdas&gularvalue enalysis. The method is applied lo an analysis dlhe complier simulabiondataofaneltihde~tesk.ltissharm~thememod cannrakedearjudgementonulefeedbadcsbuchre. El
IL, UnitedStatesandCRAlGJ.DUrrON AlAAJoumal(ISSNOOO1-
(BTN-sS-EIXS5242670770)
A95-81092 INTEGRATED DEVELOPMENT OF THE EQUATIONS OF MOTION FOR ELASTIC HYPERSONIC FUQHT VEHICLES KARL D. BlLlMORlA Arizona State Univ, Tempe. Az. United States and DAVlD K. SCHMIDT Journal of Guidance, Control, and Dynamics(ISSNO731-5090) vol.18,n0.1 January-Feb-1995 P.73-81 refs (~TN-sS-EIX9S%?67O?Sj) copyrighi
Anintegrated.consistentsnalyticalframe;work~modelingthe dynamicsofelastichypersocricnivehideshaobeendeveloped usingmodalshapekrnctionsendinvaaromodelv&ationfrequerr
obtained tram sbuctural dynamic anatpis. A . a P - proach was used to capture the dywnics of rigid-body moQion, elastic deformatkm. fluid flow. rotatino machhnf. wind. and a
spherical roiating Earth model to accorntfor their mutual interac- tions. The r e d i n g equationsofmotion govern the rigid-body and
SAHJENDRA N. SINGH Univ of Nevada, Las V v , NV, United states. WOOSOON YIM, and WILLIAM R. WELLS Journal of
were developed and presented ina usable form.
A95-61099 DIRECT ADAPTIVE AND NEURAL CONTROL OF WING- ROCK MOTION OF SLENDER DELTA WINGS
January-Februatyl995 p.25-30 refs
The question of wing-& wrppression of slender delta wings is considered. Based on a nonlinear model. an adaptive control law for wing-mck contrd is derived. In this derivation, it is assumedthat the aerodynamic paramete rsinthe nonlinear model arenotknown. The derivation ol a control law for wingrock appression using
unknormisakotreated. Aradiibasisfunctionnetworlcisusedfor synthesizing the controller. An adaptation law is derived for adjust- ing the parameters of the network. Digital simulation resutts show that in the cksedloop system wing-& motion is suppressed using the adaptive and neural conbollers. Author (El)
ASS-81101 FUNDAMENTAL MECHANISMS OF AEROEUSTIC CONTROL WITH CONTROL SURFACE AND STRAIN ACTUATION KENNETH 6. LAZARUS Msa&u&b Inst of Technology. Cam- bridge. MA. Unbd Stabs. EDWARD F. C R A W . and CHARRISSA
elastic degrees of treedom. The appropriate kinematic equations
Guidance. CUIWOI, and Dyoemics (ISSN 0731-5090) Wl. 18. no. 1
(BlN-SsEIXB5242670748) &py@@t B neural ne- when the dynamics of wing rcck are canpletely
Y. LIN 5090) vol. 18. n ~ . 1 Januav-Feb- 1995 p. 10-17 refs (BTN-95-EIX95242670746) Copyriam
journal Of Guidance, contrd. and Oynamic~ (ISSN 0731-
AtypicalSdiOnefdySiSiSemQbyedbprovideanurderstand- ingofthe-mechansms . md--mPertam ing- ’ contrd.Theeffecerdbd~a&Uabdaerodynemic cadrdsutecesandinbcedsbainachralDlsan,includedinthemadel. T h e e # l i t y o f ~ a c h i a b r s 1 D e f f e c t ~ ~ ~ i s s l u b e d k r eachactustorkrdvidualyaswellasinvarousaxnbirrsltiars .The cadrdoptionsavailaMeareexaminedforsingleaput.~ (SISO) and mdtiple-input. mdtipleartput (MIMO) CbSicaJ and opti- m a l C U l t l d t a w s . A S t E k X S t ~ a n a l y s $ i s p e r f w m e d l o
cadrdlawsfwdir lerentechratorsandachrator~ .Thecost canparisarsshawthatstrainactueban . isaneffeclivemeansd achieving- ‘ controlandaviableahmabve . loarliarlated contrdslfffacemeihods.Inaddition,~admhgesdusing~ acbebnrloavoidItnital&rsaregodafedwith- systems aredemorrsbated (El)
N95-24200 Defence Science and Technolooy Organisation, Melbourne (AusWia). Airframes and engine^ Div. AN OVERVIEW OF HEALTH AND USAGE MONITORING SYSTEMS (HUMS) FOR MILITARY HEUCOPTERS KENF.FRASER Sep.1994 41p
thee effectiveness o f m - ( w - i C ~ ( u ; H I )
327
01 AERONAUTICS (GENERAL)
(DSTO-TR-0061; AR-008-923) Copyright Avail: Issuing Activity (DSTO Aeronautical nad Maritime Research Lab., GPO Box 4331, Melbourne, Victoria 3001, Australia)
The application of health and usage monitoring systems (HUMS) for military helicopters is lagging that for civil helicopters, but military operators are seriously examining the effectiveness of such sys- tems for their fleets. The material presented in this document is based mainly on the author's recent discussions with researchers, manufacturers and military operators. It outlines some of the impo- rtant issues which operators face and some initiatives in the area.
Author
N95-24201 Melbourne (Australia). Airframes and Engines Div. HELICOPTER LIFE SUBSTANTIATION: REVIEW OF SOME USA AND UK INITIATIVES KEN F. FRASER Sep. 1994 26 p
(DSTO Aeronautical and Maritime Research Lab., GPO Gox 4331, Melbourne, Victoria 3001, Australia)
Military operators normally undertake programs to substantiate the fatigue lives of life-limited components in their major helicopter fleets. during recent visits to military helicopter representatives in the USA and the UK, the author discussed the motivation and the technical approach adopted by these operators for helicopter com- ponent life substantiation. Issues and programs of particular rel- evance to the Australian Defense Force are examined in this document. Author
Defence Science and Technology Organisation,
(DSTO-TR-0062; AR-008-924) Copyright Avail: Issuing Activity
N95-242951t Federal Aviation Administration, Cambridge, MA. ESTIMATE OF PROBABILITY OF CRACK DETECTION FROM SERVICE DIFFICULTY REPORT DATA Final Report,
J. C. BREWER Sep. 1994 53 p Sponsored by Federal Aviation Administration Technical Center, Atlantic City, NJ (Contract(s)/Grant(s): DOT-FA4HUA4044) (PB95-149381; DOT-VNTSC-FAA-94-4; DOT/FAAICT-94/90) Avail: CAS1 HC AOUMF A01
The initiation and growth of cracks in a fuselage lap joint were simulated. Stochastic distributions of crack initiation and rivet inter- ference were included. The simulation also contained a simplified crack link-up criterion and the effect of rivet interference on crack growth. Nominal crack growth behavior of large cracks was derived from the simulation results. These calculations implied that large cracks spend most of their lives as multiple small cracks and that the final growth and coalescence occur rapidly. The nominal crack growth histories were applied to 'C-check' crack detection data from the Service Difficulty Report (SDR) database to estimate the sizes of cracks when they were missed during previous inspections. These nondetection events were also estimated by assuming that each detected crack had always been a single crack. The results of each method were appropriately filtered and used to estimate probability of crack detection (POD) using the maximum likelihood technique. The POD estimates obtained from the single crack model are probably conservative, but the underlying assumption of slow crack growth (and therefore more inspection opportunities) might result in unconservative damage tolerance analyses. NTlS
Oct. 1992-1 993
N95-24465' Washington, DC. AERONAUTICAL ENGINEERING: A CONTINUING BIBLIOGRAPHY WITH INDEXES (SUPPLEMENT 316) Apr. 1995 146p
This bibliography lists 413 reports, articles. and other docu- ments introduced into the NASA scientific and technical information system in April 1995. Subject coverage includes: aeronautics; mathematical and computer sciences; chemistry and material sci-
National Aeronautics and Space Administration,
(NASA-SP-7037(316); NAS 1.21 :7037(316)) Avail: CASi HC A07
ences; geosciences; design, construction and testing of aircraft and aircraft engines; aircraft components, equipment, and systems; ground support systems; and theoretical and applied aspects Of
Author aerodynamics and general fluid dynamics.
N95-25401 Sandia National Labs., Albuquerque. NM. Aging Air- craft NDI Validation Center. EMERGING NONDESTRUCTIVE INSPECTION FOR AGING AIRCRAFT Final Report ALLAN BEATTIE, LUTZ DAHLKE, JOHN GIESKE. BRUCE HANSCHE, GARY PHIPPS, DENNIS ROACH, RICH SHAGAM, and KYLE THOMPSON Oct. 1994 167 p See also N92-33480 Limited Reproducibility: More than 20% of this document may be affected by microfiche quality (Contract(s)/Grant(s): DTFA03-91 -A-0001 8) (PB95-143053; DOTIFAAICT-9U1 1) Avail: CAS1 HC A08
The report identifies and describes emerging nondestructive inspection (NDI) methods that can potentially be used to inspect commercial transport and commuter aircraft for structural damage. The nine categories of emerging NDI techniques are acoustic emission, x-ray computed tomography, backscatter radiation, re- verse geometry x-ray, advanced electromagnetics (including mag- neto-optic imaging and advanced eddy current techniques), coherent optics, advanced ultrasonics, and advanced visual and infrared thermography. NTlS
N95-25607 Science Applications International Corp.. Dayton, OH. VISUAL CONTRAST DETECTION THRESHOLDS FOR AIRCRAFT CONTRAILS Interim Report, Dec. 1993 - Jul. 1994 JEFFREY A. DOYAL, DAVID P. RAMER. MICHAEL D. STRATTON, and BRADLEY D. PURVIS Jul. 1994 55 p Limited Reproducibility: More than 20% of this document may be affected by microfiche quality (Contract(s)/Grant(s): F33615-92-0-2293) (AD-A288618; AL-TR-1994-0116) Avail: Issuing Activity (Defense Technical Information Center (DTIC))
Twenty licensed pilots participated in a laboratory investigation of visual detection thresholds for simulated aircraft contrails. Sub- jects searched a projection screen for simulated contrails while maintaining a prescribed flight profile on a simple flight simulator. Simulated contrails varied in width from 5 arc min of visual angle to 25 arc min, and varied in length from 2 deg to 10 deg. Subjects perfonned the detection task in an uncued condition, in which they searched an area measuring 135 deg x 37 deg; and In a cued condition, in which they searched an area measuring 45 deg x 37 deg. Detection thresholds decreased with increasing widths and length, however, thresholds were found to be higher than those demonstrated in previous studies. This difference is attributed to the use of a large visual search area and a secondary task. Cued detection, as described above, led to slightly lower detection thresh- olds. Psychometric functions were drawn that allow the reader to extrapolate the probability of detection associated with contrails of a given size and contrast. DTIC
N95-25798' Washington, DC. AERONAUTICAL ENGINEERING: A CONTINUING BIBLIOGRAPHY WITH INDEXES (SUPPLEMENT 317) May1995 89p
This bibliography lists 224 reports. articles, and other docu- ments introduced into the NASA scieMc and technical information system in M y 1995. Subject coverage includes: design, construe- Con and testing of aircraft and aircraft engines; aircraft components, equipment, and systems; ground support Systems; and theoretical and applied aspects of aerodynamics and general fluid dynamics.
Author
National Aeronautics and Space Administration,
(NASA-SP-7037(317); NAS 1.21 :7037(317)) Avail: CAS1 HC A05
328
AERODYNAMICS 02
02 AERODYNAMICS
Includes aerodynamics of bodies, combinations. wings, rotors, and control sutfaces; and intemal flow in ducts and turbamachinery.
A%-792& HYPERSONIC MODEL TESTING IN A SHOCK TUNNEL ti. OLlVlER Shock Wave Lab, ti. GRONIG, and A. LEBOZEC AIM Joumal(lSSNOOO1-1452) vd.33,nO.2Feb1I~Wy1995 p.262-265 refs (BlN-95-EIXs5222ss0789) (~PYIQM
A shack tunnel is used to perform test at hypersonic tlow
distributionsaremeaarrederwndtypical~camgursfions. Fr0mthesedatac(subp)valuesandS~nunbe~af8deduced. For constant Mach and Reynolds numberthe experimental results achieved indicate a strong inffuence OftheWtemperabrreonthe Stanton number distribution. For the results presented this behavior is mainiybased onmtmpykyerandviscous interactioneffects. A correlation hrnction which taltes illto account these effects #UT%- latestheStantonnumbersachievedfordifferentflowconditionsand in different wind tunnels fairly well. Author (El)
c o n d i i n d n l i weak real gas effects. Pressureand heatRux
A45-79246 PREDICTION OF SUPERSONIC INLET UNSTART CAUSED BY FREESTREAM DISTURBANCES DAVID W. MAYER Boeing Commerdal Airplan, 0 9 , seatlle, WA. United States and GERALD C. PAYNTER AIM Jwmal (I= oool-1452) vol.33,no.2 Febnrary1995 p.266-275 refs (BTN-SSElXS5-m)
The objecwe is torspatprogresstowardthedevekpmentof an Euler analysis p m c e d u m b r p e d i the rrnstart tolerance of supersonic inlets. As an aid to cpderstanding boundary condibbn issues, a onedimensional. Iirtear-anaIysiS procedure was de& opedandusedtoanalyzebrlet~rtbehavior.Usingtheseresufts as a guide, an Euler analysrs procedure was extended thmugh the a d d i i of a new bleed baudary Hi. a new canpressorface boundary condition, and an engine demand model torthesinudaticm of unsteady inlet flows caused by freestream flow disturbances . Five unstart conditions wem identified with the Euler analysis ofthe axisymmetric inletfor both* and gwegthroat Meed conhgura- tions. Results showthattmth imeeses and decreases in tempera- ture or velocity will -the inlet, ~ ~ y ~ d e c m ~ 6 ~ will unstart the inlet. It was also found that go-deg ttvoat Meed improves the unstart tolemce relative to 2Odeg ttvoat Meed for t reestreamPreSSU~deaeeses,tenpe~~inaeasea,and~ in velocity. Authar (El)
AS79247 SlMILARrrY RULE FOR JET-TEMPERANRE EFFECTS ON TRANSONIC BASE PRESSURE KEISUKE ASAl Nan Aerospece Lab, Tokyo. Japan A I M Joumal (ISSN 0001-1452) VOI. 33. tx). 2 F e b m 1995 p- 276-281 refs (BTN-95-EIXsSms50791) Cop*
0nthebasisofthesimilarityndeforjetinteractim.aahotietcan be simulated in a cryogenic wind tunnel with atest gas at ambient or moderately elevated temperatures. By using this approach. jet- temrature effects on the base pressure o f a c y l i afterbody model at transauc ' speeds have &n investigdd in the 0.1-m
cryogenic wind tuvrel at the Natiaral Ilbnwpa#, - tory. Mixttms of nitrogen and either methme. argon, at varyingtemperetueswereusedasajatgaslom . - - o f j e t ~ . s p e c i f i c w r a b b . ~ ~ - It h a s b e e n ~ t h a t d a t a o b t a i n e d ~ ~ j e t c a d i t k n s c e n k , conelated very w&l WHh two similarity parameters: the plume mardmum diameter for the plume shape effect and the jet to freestream mass flux ratio for the jet entrainment-. To verify this
simihrityrule,thesamemodet wastestedinanambientwindtunml. It was found that an ambient temperature gas having low molecular weight could simulate the jet temperature effects on the tnvlsonic base pressure. - (El)
AS79248 EXPERIMENTAL STUDY OF FLOW SEPARATION ON AN OSClLLATlNG FLAP AT MACH 2.4 MICHAEL D. COON Univ of California. Berkeley, CA. United States end GARY T. CHAPMAN A I M J w ~ (ISSN OOO1-1452) vol. 33. m.2 Feb-1995 p.262-288 refs ( B T N - S S E I X S ) Copyriem
Measurementsofursteedywanpreswreshavebeenmadein the turbulent boundary layer just upstream ofthe hinge line of an oscillating Rap. The Rap, which cteates a highly threedimensional compression comer fbwtield. was oscillated in Nly attached. ems- ing incipient separation, anduly separapedflow regmesavera range offrequendes. It was fwnd thet a srrbsburbal . lagofthe pressure on the flap was produced when oscillating across the point of incipient separation. This occurred at much kwer reduced fm- quench than forthe case of dynamicstall man airfoil in transonic Row. The dynamic hysteresis was much less in fhe Mlyseparated case and negligible in the fully attached case. Author (El)
A95do030 UNSTEADY LIFT ON A SWEPT B W E TIP N.PEAKEUnivofChMMdgs,Cambndge . ,unitedlcacgdanJoumal of Fluid m a (ISSN 0022-1120) vd. 271 July25 1994 p. 87-101 refs (BTN-W-EIX95011441154) Copyrism
Thepaperpresentsastudyontheunsteadyliftonaswept Madelip. The solubion ofa model proMem up tothe understandii and prediction of noise generation by the intaraction between incident vortical dishrrbances and swept blades is also evaluated. The sohrtion is completedwith the use ofa Wtener-Hopf technique wherein the usual factorization is carried out with respect to two independent variables separately and dosed form expressions for mlii per unit span am derivedporboth subsodc and supersonic regimes. El
N9S2421W c e m b m Univ.. C a m b m (England). Oept of Engineering. THREE-DIMENSIONAL INTERACTION OF WAKE/ BOUNDARY-LAYER AND VORTEXIBOUNDARY-LAYER DATA REPORT C. P. YEUNG and L. C. SQUIRE 1993 141 p Sponsored by
(ISSN 03097293) CroucherFoundatm . o f ~ g K 0 n g
(CUED/A-AEREWrrr-23) Aveil: CAS1 HC A07MF A02 lnanattenpttosbdythethreedimensioneli~ofwake
a n d b o u r d a r y - l a y e r m 4 t ~ o c a t r s o n t h e ~ ~ d a h i m multi-element aerotoil, an experimental test case has been establ i i , which has a realistic slatlwing fkw ConfiguraBOn . under infinitesweptwingconditions.ThisemabkstheeffectofthecrossAaw induced by the wing sweep on the slat wake andthe wing bolmdary- hyer interaction process to be iwest&ted. The measurements of themeanveiocityand Reyndds~cMponentsarecaniedout by an orthogwral triple hot-wire system developed by the authors. As well as the wakehundary-layer interaction experiment. a three- dimensional boundary-layer experiment without the slat has also been conducted. As an extension of the pmject, the threedimen- sionalvorts~-iayKlrlboundary-layermwhichalsocarmaJyoc- curs an a high-lii aecofdl has been studied. The e
entialfy-deftected slab whichinteractwith anotbrwimhro-dherr sionel boundary-layer developad on the wing surface ut de^ a nominal zero pressure gradient. The mean andturbuhthwfieh are measured by the seme triple hot-wire system. This report essentialty~theexperhentalconfiguralionsofthes%three
. rnxllrslthetrailing-genend.db=-
329
02 AERODYNAMICS
experiments and documents the triple-wire measurements of the mean and turbulent flowfields of the respective flow. Author
N95-24217.W Rockwell International Corp., Huntsville, AL. Space Systems Div.
DENSE SUBSONIC FLUIDS BAW-LIN LIU and J. M. OFARRELL Washington NASA Mar. 1995 216 p (Contract(s)/Grant(s): NAS8-38187) (NASA-CR-4652; M-773; NAS 1.26:4652) Avail: CAS1 HC A1 O/MF A03
Prediction of the detailed dynamic behavior in rocket propellant feed systems and engines and other such high-energy fluid systems requires precise analysis to assure structural performance. Designs sometimes require placement of bluff bodies in a flow passage. Additionally, there are flexibilities in ducts, liners, and piping sys- tems. A design handbook and interactive data base have been developed for assessing flow/structural interactions to be used as a tool in design and development, to evaluate applicable geometries before problems develop, or to eliminate or minimize problems with existing hardware. This is a compilation of analytical/empirical data and techniques to evaluate detailed dynamic characteristics of both the fluid and structures. These techniques have direct applicability to rocket engine internal flow passages, hot gas drive systems, and vehicle propellant feed systems. Organization of the handbook is by basic geometries for estimating Strouhal numbers, added mass effects, mode shapes for various end constraints, critical onset flow conditions, and possible structural response amplitudes. Emphasis is on dense fluids and high structural loading potential for fatigue at low subsonic flow speeds where high-frequency excitations are possible. Avoidance and corrective measure illustrations are pre- sented together with analytical curve fits for predictions compiled from a comprehensive data base. Author
N95-24308t Sandia National Labs., Albuquerque, NM. VERIFICATION OF COMPUTATIONAL AERODYNAMIC PREDICTIONS FOR COMPLEX HYPERSONIC VEHICLES USING THE INCAVRADEMARK) CODE J. L. PAYNE and M. A. WALKER 1995 11 p Presented at the 33rd AlAA Aerospace Sciences Meeting, Reno, NV, 9-12 Jan. 1995 (Contract(s)/Grant(s): DE-AC04-94AL-85000) (DE95-004757; SAND-94-31 9OC; CONF-950130-3) Avail: CAS1 HC A03/MF A01
This paper describes a process of combining two state-of-the- art CFD tools. SPRINT and INCA, in a manner which extends the utility of both codes beyond what is possible from either code alone. The speed and efficiency of the PNS code, SPRING, has been combined with the capability of a Navier-Stokes code to model fully elliptic, viscous separated regions on high performance, high speed flight systems. The coupled SPRlNThNCA capability is applicable for design and evaluation of high speed flight vehicles in the supersonic to hypersonic speed regimes. This paper describes the codes involved, the interface process and a few selected test cases which illustrate the SPRINTIINCA coupling process. Results have shown that the combination of SPRINT and INCA produces correct results and can lead to improved computational analyses for com-
N95-24379'11 Overset Methods, Inc., Los Altos, CA. AERODYNAMIC OPTIMIZATION STUDIES ON ADVANCED ARCHITECTURE COMPUTERS Final Report KALPANA CHAWLA 28 Feb. 1995 31 p Origlnal contains cdor Illustrations (Contract(s)/Grant(s): NCC2-806) (NASA-CR-198045; NAS 1.26:198045; OMI-02-93) Avail: CAS1 HC AOYMF A01; 2 functional color pages
The approach to carrying out multi-discipline aerospace design studies in the future, especially in massively parallel computing environments, comprises of choosing (1) suitable solvers to com- pute solutions to equations characterizing a discipline, and (2)
HIGH FREQUENCY FLOW-STRUCTURAL INTERACTION IN
plex, three-dimensional problems. DOE
efficient optimization methods. In addition, for aerodynamic Optimi- zation problems, (3) smart methodologies must be Selected t0 modify the surface shape. In this research effort, a 'direct' Optimiza- tion method is implemented on the Cray C-90 to improve aerody- namic design. It is coupled with an existing implicit Navier-Stokes solver, OVERFLOW, to compute flow solutions. The OPtimiZa- tion method is chosen such that it can accomodate multi-discipline optimization in future computations. In the work, however, only single discipline aerodynamic optimization will be included.
Author
National Aeronautics and Space Administration. N95-24397'W Langley Research Center, Hampton, VA. PERFORMANCE OF AN AERODYNAMIC YAW CONTROLLER MOUNTED ON THE SPACE SHUTTLE ORBITER BODY FLAP AT MACH 10 W. I. SCALLION Feb. 1995 28 p (Contract(s)/Grant(s): RTOP 242-80-01 -01 ) (NASA-TM-109179; NAS 1.15:109179) Avail: CAS1 HC A031MF A01
A wind-tunnel investigation of the effectiveness of an aerody- namic yaw controller mounted on the lower surface of a shuttle orbiter model body flap was conducted in the Langley 31-Inch Mach 10 Tunnel. The controller consisted of a 60 deg delta fin mounted perpendicular to the body flap lower surface and yawed 30 deg to the free stream direction. The control was tested at angles of attack from 20 deg to 40 deg at zero sideslip for a Reynolds number based on wing mean aerodynamic chord of 0.66 x lO(exp 6). The aerodynamic and control effectiveness characteristics are presented along with an analysis of the effectiveness of the controller in making a bank maneuver for Mach 18 flight conditions. The controller was effective in yaw and produced a favorable rolling moment. The analysis showed that the controller was as effective as the reaction control system in making the bank maneuver. These results warrant further studies of the aerodynamidaerothermodynamic characteristics of the control concept for application to future transportation vehicles.
Author
N95-2-V Bihrle Applied Research, Inc.. Hampton, VA. EXPERIMENTAL STUDY OF THE EFFECTS OF REYNOLDS NUMBER ON HIGH ANGLE OF ATTACK AERODYNAMIC CHARACTERISTICS OF FOREBODIES DURING ROTARY MOTION Final Report H. PAULEY, J. RALSTON. and E. DICKES Jan. 1995 97 p Original contains color illustrations (Contract(s)/Grant(s): NASl-20228; RTOP 505-68-30-01)
HC A05/MF A02; 32 functional color pages The National Aeronautics and Space Administration and the
Defense Research Agency (United Kingdom) have ongoing experi- mental research programs in rotary-flow aerodynamics. A coopera- tive effort between the two agencies is currently underway to collect an extensive database for the development of high angle of attack computational methods to predict the effects of Reynolds number on the forebody flowfield at dynamic conditions, as well as to study the use of low Reynolds number data for the evaluation of high Reynolds number characteristics. Rotary balance experiments, including force and moment and surface pressure measurements, were conducted on circular and rectangular aftbodies with hemispherical and ogive noses at the Bedford and Famborwgh wind tunnel facilities in the United Kingdom. The bodies were tested at 60 and 90 deg angle of attack for a wide range of Reynolds numbers in order to observe the effects of laminar, transitional, and turbulent flow separation on the forebody characteristics when rolling about the velocity vector.
Author
N95-24566.1 Army Aviation Systems Command, Hampton. VA. EXPLORATORY FLOW VISUALIZATION INVESTIGATION
TERENCE A. GHEE (Analytical Services and Materials, Inc., Hamp- ton, VA.) and HENRY L. KELLEY Mar. 1995 36 p
(NASA-CR-195033; REPT-94-4; NAS 1.26~195033) Avail: CAS1
OF MAST-MOUNTED SIGHTS IN PRESENCE OF A ROTOR
330
AERODYNAMICS 02
(contract(S)/Grant(~): RTOP 505-59-3641; RTOP 282-1041-01) (NASA-TM-4634; L-17409; NAS 1.15:4634; ATCOM-TR-95A-001) Avail: CAS1 HC A M F A01
Aflowvisualizationmv~igationwithalaserligtltsheetsystem was conducted on a 27-percent-scale AH-64 attadc helicopter model fitted with two mast-mountedsights inthe Iangtey 14- by22- foot wbaoni tunnel. The investigation was clnducw to identify aemdymmic phenomena that m y have auMbutd to adverse vibration encountered during MI-scaie flQM ofthe AH-64D apachel bngbow h e l i e r with an esymnetnc . mast-mounted sight. sym- metricandasymmemc ' mast-maunted sights oriented at several skew angles were tested atsmllatd fomardandreerwerdlligM speedsof30and45kna6 .A~ l igMSh86tsystemWaS~to VisualitetheflowmplanesparalleltoandperpendiaJartothefree- stream flow. Analysis d theM, flow viwalization dataidmikd freqlmdes offlw patteflls m the wake shed from the sight, the streamline angle at the sight, and the localimwheretheshedwake
served between the S i g h t c o n f i ~ and variaffskewangles. CroSsBd the mtor plane. Differences in wake structure were ab-
Analysis of lateral light sheet plane data imptied signmcant vortex structure in the wake of theasymnetnc ' mastmwntedsightinthe configuration that produced tmximm in-flight vibration. The data showed nosigrtificant vortexstnrchne in the wake of theasymmetric
adverse vibration. AuthM and symmetric configurations that produced rx) increase in i n - n i
N95-24- Natiaral Aerospace Lab.. Tokyo (Japan). Aim Aerodynamics Div. NUMERICAL AND EXPERIMENTAL STUDY OF DRAG CHARACTERISTICS OF TWO-DIYENSIONAL HLFC AIRFOILS IN HIGH SUBSONIC, HIGH REYNOLDS NUMBER FLOW YOJl ISHIDA, MASAYOSHI NOGUCHI, MAMORU SATO. and HlROSHl KANDA Jut. 1994 14 p (ISSN 0389-4010) (NAL-TR-1244T) Avail: CAS1 HC A W F A01
Hybrid laminar flow control (HLFC) is one ofthe mostprOmisk\g aircraft drag reduction technoiogces ' . Hawever, very few expwimm- tal and theoretical studies have been reported. We have investi- gated both numerically and experimentally the aerodynamic characteristics of an HLFC airfoii and wing at high subsonic, high Reynolds number conditjol\s. In this paper, we rem the results of the wind tunnel test on drag chracteristics, with and without suction, of two-dimensional HLFC airfoits with porws and dot Suction approach under some adverse factors against lamkrar Row. and a numerical analysis of the wind tunnel data, which is based on the boundary layer cakulation with a new trarsition prediction method allowed for the adverse factors and the Squire-Young drag fomurla The HLFC models achievedtotaldrag reduction as highas20%at realistic RigM c o n d i i and the numerical methods has given sabisfactMy p r e d i i . kRhor
N S 2 5 1 W National Amuspaw Lab., Tokyo (Japan). Advanced Aircraft Research Group. LOW SPEED AERODYNAMIC CHARACTERISTICS OF DELTA WINGS WITH VORTEX FLAPS: 60 DEG AND 70 DEG DELTA WINGS KENlCHi RlNOlE (Tokyo Urriv.. Japan.), TOSHlMl FUJITA, AKlHlTO IWASAKJ, and HlROTOSHl FWIEDA Jul. 1994 15 p In JAPA- NESE (ISSN 0384.4010) (NAL-TR-1245)
Low-speedwindtumeltestshavebeenmadeona~degdette ~ m o d e l W i t h t e p e r e d ~ X ~ t O ~ t h e e f f b d s o S t h e swept-back on the peffomanw of m x Aaps. fhe force, SlJrfeCe lwessue meBsu-. and oa now - - were made on aO.5 m span 70 dsgdattawing model. The resllfts ~ ~ c o m P a ~ b s t w e e n 6 0 d e g a n d 7 0 d e g d d W ~ ~ - ~ patterns around the vortex tkps at the optimum tifvdrag ratio Rap d g u r a M of 70 deg delta wing were found to be different fran thogeof60degdeftawing.Th6maximumwMragra~imp~nt
Avail: CAS1 HC A M F A01
for 70 deg delta wing is attained when a separated region is formed over the whde vortex flap surface. Author
N95-25338'1 National Aeronautics and Space Administration. Langley Research Center, Hampton. VA. INTERNAL PERFORMANCE CHARACTERISTICS OF
MILTONIAMB Mar.1995 227p Preparedincooperationwith Pratt and Whitney (the Government Engines and Space Propulsion
THRUST-VECTORED AXlSYMMRRlC EJECTOR NOZLES
Div.oftheUnitedT- ' 1 (contrect(s)/Grant(s): RTOP 505-59-3044) (NASA-TM-4610; L-17386; NAS 1.15:4610) Avail: CAS1 HC A l l / MF A03
A series Of thnrst-vectored ' ejecbrnonleswem designed and elrperimentallytestedforintemalperfomrance and pumping chamteristicsatthe Langley researchcenter. This study indited that discontinuities in the pwfonmm OcCuRBd a! kw primarynoule pressure rabjosandthat~discontinuities were mitigated by decreasing expamion area ratio. The a d d i i of secardaryfbw- the peffomameofthe nonteS.The* to-high range of secondaryfiow pravided the most overall improve- merits. and the greatest improvements wereseenforthelargest ejector area ratio. Thnrst wctoring the ejector nozzles caused a reducbjoninperfonnanceanddischawcoeffiaent . withorwithout ~ f low , thevec to rede jec tw~produced thn rs tvec to r angles that wre equivalent to or greaterthan the gmmetrktuming angfe. W* orwithoutsecandarynow, rrpeeing mtio (ejector pa% sage twnmwy) had effectonperfonnance (srossthruaratio). disdrerge- . o r t t w u s t v e c l D I a n g l e . F o r t h e ~
the pressure levels on the StwnJd to prwide cooling, but forthe ~,asmellamolntofseoonderyRowwassuffidenttoreduce
vectored ejector nozzles. a larger amomt of EBcondery air was reguiredtoreducethepressurelevetstoprovidecodi. Author
N95-2564W Defence ResearchAgency, Famborwgh, Hampshire
A THEORETICAL AND EXPERIMENTAL INVESTIGATION OF THE FLOW OVER SUPERSONIC LEADING EDGE WING/ BODY CONRGURATIONS J. L. FULKER (Defence Research Agency, Bedford. England.), P. R. ASHILL, and A. SHIRES Aug. 1993 42 p at the 1993 European Forum on Recent Developments and Applications in Aeronautical CFD. M, England. 1-3 Sep. 1993 sparsored by Ministry of Defence Original contains color illustrations (DRA-TM-AERO-PROP-41; DRAIAPM341/1 .O) CopyrigMAVea: CAS1 HC AO3/MF A01
A theoretical and expwimmw study is described . ,ofthefkw averwing-bodyconfigumtionswithasupemnkcmponmtofb stream normal to the leading edge, Le. with a supersonic leading edge.--- . havebeenpwfwmedusinga c o d e f o r ~ g E u l e r ' s ~ f o r a u n p l e x ~ . k n o w n as SAUNA. An awmsmmt is made of the prsdiclkns ofthis method. by cOmparjSOn with the euperimental results. reductiorrsinlocai~dragbytheugeofnoQe#tntingareboth predictedandmeawredoverawbstanW . portionofthewingspan. Hawever, it is eko shown that nose Hunting results in a marked increaseinkcaldmginIheregionofthewinglbodyjunction.Inthis region thefknu iscomplex, the bow shock having kw local andhigh~.HiSShawnhowtheCFDmethodCf?Ulberrsedboth to identify thii problem and to effect a redesign of the winslbody junction, forthe bluntnose configmtian. with the aim of realidng the benefits of nose Munting. sgnihnt drag reducborrs . areob- t a h d r e w v e t o l h e ~ ~ . ,indwinghowed- VanwdcodescanprovideasoMiontoproMemsofthiskindwithwt resort to further eqmsive wind-tunnel tests. Allnux
N95-257611 Natknal- Lab.. Tokyo (Japan). Aircraft AerodynamKs . Div. MEASUREMENTS OF LONGITUDINAL STATIC AERODYNAMIC COEFFICIENTS BY THE CABLE MOUNT SYSTEM
(England).
331
02 AERODYNAMICS
KATSUlCHl MUROTAand MASAAKI YANAGIHARA Feb. 1994 22 p InJAPANESE
(NAL-TR-1226) Avail: CAS1 HC A03/MF A01 The longitudinal static aerodynamic coefficients of an NAL
spaceplane model were measured in the NAL 6.5 m x 5.5 m low- speed wind tunnel. The model wassupported by a pair of cables, one spanned horizontally and the other vertically (cable mount system). The aerodynamic interference of the cable mount system is gener- ally smaller than that of conventional model support systems such as the strut and sting system. This paper outlines the cable mount system, the cable mounted system, the method used to measure the trimmed longitudinal aerodynamic coefficients and the test results.
Author
(ISSN 0389-401 0)
N95-25762# National Aerospace Lab., Tokyo (Japan). Airframe Div. FUNDAMENTAL WIND TUNNEL EXPERIMENTS ON LOW- SPEED FLUlTER OF A TIP-FIN CONFIGURATION WING TETSUHIKO UEDA, TOKUO SOTOZAKI. and KAZUO IWASAKI Mar. 1994 23 p In JAPANESE
(NAL-TR-1228) Avail: CAS1 HC A03/MF A01 Wind tunnel tests were conducted to investigate the funda-
mental flutter characteristics of a tip-fin configuration wing. Two types of models were tested to provide experimental data for the flutter analysis of non-coplanar wings. One is a normally plain wing and the other has a cant angle of 15 deg at the tip-fin. They were tested in the 2m x 2m low-speed wind tunnel. On the tip-fin wing, mild flutter with limited amplitudes was observed in a certain range of speeds well below the typical violent flutter speed. It was caused by the coupling between wing torsion and the deflection of the rotationally free rudder with mass balance. The effects of mass balance of the rudder located at the tip-fin were also studied to confirm its role in flutter prevention. Modal tests on the models were performed automatically using the Dynamic Displacement Measurement System. Author
N95-25962.t National Aeronautics and Space Administration. Lewis Research Center, Cleveland, OH. RECENT IMPROVEMENTS TO AND VALIDATION OF THE ONE DIMENSIONAL NASA WAVE ROTOR MODEL DANIEL E. PAXSON and JACK WILSON (NYMA, Inc., Cleveland, OH.) May 1995 20 p (Contract(s)/Grant(s): NAS3-25266; RTOP 505-62-50) (NASA-TM-106913; E-9621; NAS 1.15:106913) Avail: CAS1 HC A03/MF A01
A numerical model has been developed at the NASA Lewis Research Center which can predict both the unsteady flow quanti- ties within a wave rotor passage and the steady averaged flows in the ports. The model is based on the assumptions of one-dimen- sional, unsteady, perfect gas flow. The model assesses not only the dominant wave behavior, but the loss effects of finite passage opening time, leakage from the passage ends, viscosity, and heat transfer to and from the passages. The model operates in the rotor reference frame; however, until recently no account was made for the often significant effect of the rotor circumferential velocity component. The present model accounts for this by modifying the passage boundary conditions, allowing the internal computational scheme to remain the rotor reference frame, while quantities such as inlet duct stagnation properties may be Specified in the fixed or absolute reference frame. Accurate modeling of this effect is critical to successful wave rotor analysis and design, particularly in off- design predictions where the flows in the inlet ducts are mismatched with the rotor passages and significant tuming may take place (i.e., work is done on the gas). The relative simplicity of the model makes it useful for design and optimization, as well as analysis, of wave rotor cycles for many applications. This report, building on several earlier papers, descrlbesthe most recent modifications to the model. These include accounting for the relative/absolute transition at the passage boundaries and refinements to the viscous soume term
(ISSN 0389-4010)
correlation which resulted from this accounting. Comparison Of model predictions with measured data is then presented and discussed. Author
N95-26075'# National Aeronautics and Space Administration. Lewis Research Center, Cleveland, OH. A COMBINED GEOMETRIC APPROACH FOR SOLVING THE NAVIER-STOKES EQUATIONS ON DYNAMIC GRIDS JOHN W. SLATER May 1995 9 p Presented at the COnfermCe on Numerical Methods for Fluid Dynamics, Oxford, England, United Kingdom, 3-6 Apr. 1995; sponsored by the University of Oxford and Reading (Contract(s)/Grant(s): RTOP 505-62-52) (NASA-TM-106919; E-9630; NAS 1.15:106919) Avail: CAS1 HC A02/MF A01
A combined geometric approach for solving the Navier-Stokes equations is presented for the analysis of planar, unsteady flow about mechanisms with components in moderate relative motion. The approach emphasizes the relationships between the geometry model, grid, and flow model for the benefit of the total dynamics problem. One application is the analysis of the restart operation of a variable-geometry, high-speed inlet. Author
N95-26302Y National Aeronautics and Space Administration. Ames Research Center, Moffett Field, CA.
FAN AIRCRAFT LOURDES G. BIRCKELBAW, WALTER E. MCNEIL, and DOU- GLAS A. WARDWELL Apr. 1995 63 p (Contract(s)/Grant(s): RTOP 505-68-32) (NASA-TM-110347; A-950051; NAS 1.15:110347) Avail: CAS1 HC AWMF A01
This report describes the aerodynamics model used in a simulation model of an advanced short takeoff and vertical landing (ASTOVL) lift-fan fighter aircraft. The simulation model was devel- oped for use in piloted evaluations of transition and hover flight regimes, so that only low speed (M approximately 0.2) aerodynam- ics are included in the mathematical model. The aerodynamic model includes the power4 aerodynamic forces and moments and the propulsion system induced aerodynamic effects, including ground effects. The power-off aerodynamics data were generated using the U.S. Air Force Stability and Control Digital DATCOM program and a NASA Ames in-house graphics program called VORVIEW which allows the user to easily analyze arbitrary conceptual aircraft con- figurations using the VORLAX program. The jet-induced data were generated using the prediction methods of R. E. Kuhn et el., as referenced in this report. Author
AERODYNAMICS MODEL FOR A GENERIC ASTOVL LIFT-
03 AIR TRANSPORTATION AND SAFETY
Includes passenger and cargo air transport operations; and aircraft accidents.
AS78583
WIND SHEAR AVOIDANCE D. ALEXANDER STRATTON Parker Hannifin Corp, Smithtown, NY. United States and ROBERTS STENGEL IEEE Transactions on Aerospace and Electronic Systems (ISSN 0018-9251) vol. 31, no. 1 January 1995 p. 117-124 refs
Modem estimation theory and aftificial intelligence technology are applied to the Wind Shear Safety Advisor. a conceptual airborne advisory system to help flight crews avoid or sunrive encounter with hazardous low-altiide wind shear. Numerical and symbolic pro- cesses of the system fuse diverse, time-varying data from ground- based and airborne measurements. Simulated wind-shear-encounter scenarios illustrate the need to consider a variety of factors for
REAL-TIME DECISION AIDING: AIRCRAFT GUIDANCE FOR
(BTN-95-EIX95202637575) Copyright
332
AIR TRANSPORTATION AND SAFETY 03
optimal deciion reliability. The wind-shear*ncounter simulations show the potential of t ie Wind Shear Safety Advisor for effectively integrating the available information, highlighting the benefits of the computational techniques employed. - (El)
N95-2- NatbnalT- . safety Board, Washington. Dc. AIRCRAFT ACCIDENT REPORT: IMPACT WrrH BLAST FENCE UPON LANDING ROLLOUT ACTION AIR CHARTERS FLIGHT 990 PIPER PA-31450. N9WRA, STRATFORD. CONNECTICUT, 27 APRIL 1994 1994 75p (PB94-910410; NTSB/AAR-94/W) Avail: CAS1 HC A W F A01
On April 28,1994. about2256sastern dayligtrttime. Action Air mrs flight 990, a Piper PA-31-350 Navajo Chieftein. NQQORA. crashed into a blast fence at the depatane end of funway 6 after
flight originated in Atlantic City, New Jersey, and opefated on a visual flight rules fliiht plan. The akptane was operating under T i e 14 Code of Federal Regulations Part 135 as a single pilot. on- demand air canier flight. FoHowing handling touchdorm and during rollout, the airplane c a l l i with a Mest dedktor fence at the departure end of runway 6. The airplane was desboyed by impact f o r c e s a n d p o s t c r a s h f i r e . E i g h t a t t h e n i n e ~ ~ f a t a i injuries. One passenger was seriously injured. The Natiaral Trans- portation safety Board determines that the pbatMt3 CBUSBS of this accident were the failure ofthe captain to use theavaileMe instfu- mnt landing system ( I S ) glideskpe, his kjkrre to execute a go- arwndwhenthecondieons . werenotsuitableforlanding,andhis failure to land the airp&meon the nmwayata pointsumcienttoaHow for a safe stopping distanoe; the fataIi i were caused by the presenceofthenonhrang#e . bkstfenceandtheabsenceofasafety area at the end of the w y . Safety issues in this report foased on the instrument landing system, runway sadetyareas. and runway lighting systems. Safety feconmendatioIls these issues were made to the Federal Avietion Ministration. the COMlectiaft Department of Transportatian, the C i of Bridgeport, and the Town of Stratfonl. comecbc . ut.Also,asaresultoftheinvastigationofWs accident, on May 11,1994, the Safety Board issued Urgent Action Safety Recommendations A-94-111 and A-94-112 to the Federal
by Harrington Industries. Inc. Author
N95-2- C i l Aeraedical Inst. Oklahoma City, OK. DEVELOPMENT OF AN INTERVENTION PROGRAY TO ENCOURAGE SHOULDER HARNESS USE AND AIRCRAFT RETROFIT IN GENERAL AVlATlON AIRCRATT, PHASES 1 AND 2 JAMES F. PARKER, JR. (BioTechnology, lnc., Falls Church. Vk), WIUIAM T. SHEPARD (Federal Aviation Administrabjon, Washing- ton. Dc.), WALTER J. GUNN (Atlington Assodates, Daytomeeach. R.), and DIANE G. CHWSTENSEN (BioTt3chhgy. Inc., Falls church, VA.) Jan. 1995 63p (DOTIFAAIAM95I2) Avail: CASl HC A W F A01
This report describes a sbldy of shoulder hamess instaHation and use rates in general aviation aircraft. observatia\s were made at six geogrephicauy separate areas to determine estimates of current installation and use rates. An expert panel was employed to identify importent factonthat affect insmkbon . anduseofshoulder hamess in general aviation aircraft. Analyses are presented to exP&tinreasMIsforshoulderhamessi~ . anduseram.An educational program is proposedto influence pilotsto install andlor ~shoulderhammsesintheirgeneralaviatbnairaaft Author
N%-24391'# C l e m w., sc. Radar systems Lab. CHARACTERIZING THE WAKE VORTEX SONATURE FOR AN ACTIVE LINE OF SIGHT REMOTE SENSOR M.S. T h i s T.ehni-1 Report No. 19 ROBERT MlL'TON HElL 5 Aug. 1994 EO p (-(s)/Grant(s): NGT-50975)
landing at Sikorsky Memorial Airport. Smtford. camecbcut * T h e
Aviation Administration concerning aimaft performed
(NASA-CR-197697; NAS 1.26:197697; TR-0805964871F) Avail:
CAS1 HC AOYMF A01 A recurring phenomenon, described as a wake vort%x. devel-
ops as an aircraft approaches the runway to W. As the aim moves along the runway, each of the wing tips generam a spiraling and expanding cone of air. During the lifetime of this turbulent event, conditions exist overthe runway which can be -to folkw- ing aircraft, partiwhrly when a small aircraft is following a large aircraft. Left to themselves. these twin vortex patterns will converge toward each other near the center of the runway, hmdeSly dissipating thrwgh interaction with each other or by contact with the ground. Unfortunately. the time necessary to disperse the vortex is
,and at busy airports can swerely knpact methodsofavoidance am
OftennatprediCtaMe terminal area producbvrty. Rudknentary in piace. Generally. time delays between landing aircraft are besed onwhatisreqrriredtopfotectamallsmatlaircraftEx&tingembientwind conditions can complicate the sihration. R d i detec&m . a n d trackingofawakevortexhazadisamajortechnidproMemwtdch
.LandingItinhlm can siignificantly bnpact Nnway productmty cwld be determined on the basis ofthe actual hazard ratherthan imposed on the basis of a worst case scenario. This wxk focuses onusingawindfieMdescription of a wake vortex togenera& iimof- sightDoQplervelocitytruthdataappropnate . toanarbitrarifylocated activesensocsuchasahighresolubion mdarorlidar.Thegoalis0 isolaaearangeDopplersignatureofthevwtexpheromeronUmtarn b e u s e d t o k n p r o v e ~ . R e s u l t s ~ ~ b a s e d o n u s e of a simplified model of a wake vorgu Wrn However, it is importanttonote thatthe methodofsnalysisoeneasifybeapplied to any vortexmodel usedtogenerateawindWdsnepshat Results imrdvingseverelscanstrategiesareshormforapointsensorrvith a range resolution of 1 to 4 mews. Vortex sigtawes pmsentd appeartooffer potenWfordetection andtracihg. Author
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N95-24631# Federal Aviation Administration, Atlantic City, NJ. BIRD INGESTION INTO LARGE TURBOFAN ENGINES Final Report HOWARD BANILOWER and COLIN GOODALL (Pennsyhrania State Univ., University Park, PA.) Feb. 1995 139 p
This final report amtainsfindings from a shdy conducted by the Federal Aviation Admi- (FAA) of bird ingasth into certain modem large high bypass tubfan engines. These engines were certified to cunsnt FAAstandards and are irrsta#ed m A-300. A-320.8747, 8757.8-767, DC-10, and MD-11 aircratt in commer-
eventswerecdlectedforthe FAAdwing 1939-1991 bytheprhipal engine manufacturers. Topics addressed in the report indude cbtacteristics of ingested birds (nunbets. species, and weights), ingestion rates, airports. a i m f t pawmeters (flight phase, aHitude. speed, eqineposition),andingestioneventswNchpogea~
. or birds, transvense frac- methods.the-
threat to aim safety ( tureoffan b&des. areanafyredtodetsmme . theinRuenceoffl ightphase(~or anival),bitdweight, and bird nunlberr (single ormdtiple bird), both separat&yandin~nation, onoverallenginedmage,fanMede damage, core damage, and other adverse effects on flight. A summary ot all pertinent data from each ingestjon is included in an appendii. Author
N95-24633'~ National Aeronautics and space Administram. Langley Research Center, Hampton, VA. AVIATION SYSTEM CAPACITY IMPROVEMENTS THROUGH TECHNOLOGY W.DO"ARVEY Mar.1895 82p
(DOTffAACT-93I14) Avail: CASl HC A07/MF A02
cial senrice worldwide. Data pertaining to 644 aircraft inge&n
. . .
(contract(syorant(s): mop sos-ss2ool) (NA!SA-TM-lOI)lGs; NAS 1.15:109165) A01
A d : CAS1 HC ADslMF
A S t l J d y ~ C O N l U C W w i t h t h e p r i ~ o b i / e c t i v e o f d 0 t 0 ~ ing the impactoftechnokgyon capedty improvements in the us. air transportation system and, consequently, to assess the areas where NASA's expertise and technical contributions would be the most beneficial. The outlookofthe studyisEonsidered both near-
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03 AIR TRANSPORTATION AND SAFETY
and long-term (5 to 25 years). The approach was that of actively working with the Massachusetts Institute of Technology (MIT) Flight Transportation Laboratory and included interactions with ‘users’ outside of both agencies as well as with organizations within. This report includes an overall survey of what are believed to be the causes of the capacity problems, ongoing work with the Federal Aviation Administration (FAA) to alleviate the problems, and identi- fies improvements in technology that would increase capacity and reduce delays. Author
N95-25341‘# Boeing Commercial Airplane Co.. Seattle, WA. CONSISTENT APPROACH TO DESCRIBING AIRCRAFT HlRF PROTECTION Final Report P. R. RIMBEY and D. 8. WALEN Mar. 1995 93 p (Contract( s)/G rant(s) : N AS 1 - 1 9360; RTOP 538-0 1 - 1 3-0 1 ) (NASA-CR-195067) Avail: CAS1 HC AO5MF A01
The high intensity radiated fields (HIRF) certification process as currently implemented is comprised of an inconsistent combina- tion of factors that tend to emphasize worst case scenarios in assessing commercial airplane certification requirements. By exam- ining these factors which include the process definition, the external HlRF environment, the aircraft coupling and corresponding internal fields, and methods of measuring equipment susceptibilities, activi- ties leading to an approach to appraising airplane vulnerability to HlRF are proposed. This approach utilizes technically based criteria to evaluate the nature of the threat, including the probability of encountering the external HlRF environment. No single test or analybc method comprehensively addresses the full HlRF threat frequency spectrum. Additional tools such as statistical methods must be adopted to arrive at more realistic requirements to reflect commercial aircraft vulnerability to the HlRF threat. Test and ana- lytic data are provided to support the conclusions of this report. This work was performed under NASA contract NAS1-19360, Task 52.
Author
N95-25609 Vicksburg, MS.
Army Engineer Waterways Experiment Station,
REAL-TIME TESTING AND DEMONSTRATION OF THE US ARMY CORPS OF ENGINEERS’ REAL-TIME ON-THE-FLY POSITIONING SYSTEM SALLY L. FRODGE, BENJAMIN W. REMONDI, DARIUSZ LAPUCHA, and JOHN E. CHANCE Sep. 1994 16 p Limited Reproducibility: More than 20% of this document may be affected by microfiche quality (AD-A288624; WESTTNIDRP-4-10) Avail: Issuing Activity (Defense Technical Information Center (DTIC))
This technical note describes the U.S. Army Corps of Engi- neers’ Real-Time On-the-Fly (OTF) positioning system and summa- rizes the results of testing and demonstrations conducted to date.
DTIC
N95-2576411 National Aerospace Lab., Tokyo (Japan). Advanced Aircraft Research Group REENTRY GUIDANCE FOR HYPERSONIC FLIGHT EXPERIMENT (HYFLEX) VEHICLE Report No. 1 HIROKAZU SUZUKI Apr. 1994 19 p In JAPANESE
(NAL-TR-1235) Avail: CAS1 HC A03mAF A01 This paper describes the design of the reentry guidance for
Hypersonic Flight Experlment vehlcle (HYFLEX), which is now under development at NAL and NASDA to prepare for its scheduled launch in 1996. First. the mission requirements of this flight experi- ment are described. Secondly, a reentry guidance based on the drag deceleration and the azimuth angle misalignment correction is suggested and its ability is evaluated. Consequently, the proposed reentry guidance is proved to have sufficient ability to satisfy the mission requirements. Author
(ISSN 0389-4010)
05 AIRCRAFTDESIGN, TESTING AND PERFORMANCE
Includes aircraft simulation technology.
A95-79240 MULTILEVEL DECOMPOSITION PROCEDURE FOR EFFICIENT DESIGN OPTIMIZATION OF HELICOPTER ROTOR BLADES ADIT1 CHATTOPADHYAY Arizona State Univ, Tempe, M, United States, THOMAS R. MCCARTHY, and NARAYANAN PAGALDIPTI AlAA Journal (ISSN Owl-1452) vol. 33, no. 2 February 1995 p. 223-230 refs
This paper addresses a multilevel decomposition procedure for efficient design optimization of helicopter blades, with the coupling of aerodynamics, blade dynamics, aeroelasticity, and structures. The multidisciplinary optimization problem is decomposed into three levels. The rotor is optimized for improved aerodynamic perfor- mance at the first level. At the second level, the objective is to improve the dynamic and aeroelastic characteristics of the rotor. A structural optimization is performed at the third level. Interdiscipli- nary coupling is established through the use of optimal sensitivity derivatives. The Kreisselmeier-Steinhauser function approach is used to formulate the optimization problem when multiple design objectives are involved. A nonlinear programming technique and an approximate analysis procedure are used for optimization. Results obtained show significant improvements in the rotor aerodynamic, dynamic, and structural characteristics, when compared with a reference or baseline rotor. Author (El)
A%-79249 DYNAMIC STALL CONTROL FOR ADVANCED ROTORCRAFT APPLICATION YUNG H. YU U.S. Army Aeroflightdynamics Directorate, Moffett Field, CA, United States, SOOGAB LEE, KENNTH W. MCALISTER, CHEETUNG, and CLlN M. WANG AlAA Journal (ISSN 0001-1452) vol. 33, no. 2 February 1995 p. 289-295 refs
Advanced concepts designed to improve the lift, drag, and pitching moment characteristics of rotor blades have been investi- gated for the purpose of enhancing rotor maneuver capability. The advantages and disadvantages of these concepts have been evalu- ated using both computational and experimental means. The con- cepts that were considered in this study included a leading-edge slat, a deformable leading-edge, and upper-surface blowing. The results show the potential of these concepts for substantially improv- ing the performance of a rotor. Author (El)
AS01097 ROTORCRAFT HANDLING QUALITIES IN TURBULENCE R. A. HESS Univ of California, Davis, CA, United States Journal of Guidance, Control, and Dynamics (ISSN 0731-5090) vol. 18, no. 1 January-February 1995 p. 39-45 refs
Rotorcraft are often required to perform tasks in environments where atmospheric disturbances can significantly affect perfor- mance and vehicle handling qualities. Establishing requirements for rotorcraft handling qualities in turbulence is thus of prime impor- tance, particularly to the military. An analytical study is described that addresses this issue. First, a simplified approach to modeling the aerodynamic effects of turbulence on rotorcraft is presented. A structural pilot model employing a handling-qualities sensitivity function is next used to quantify handling qualities. Next, an hypoth- esis regarding the manner in which turbulence affects vehicle handling qualities is proposed. Finally, an example of the analybcal approach is presented involving the longitudinal hover task of an AH- 1 G rotorcraft. In addition to the unaugmented vehicle, three levels of stability augmentation are considered, each involving different lev- els of feedback to achieve their goals. Author (El)
(BTN-95-EIX95222650784) Copyright
(BTN-95-EIX95222650793) Copyright
(BTN-95-EIX95242670750) Copyright
334
AIRCRAFT DESIGN, TESTING AND PERFORMANCE 05
A9581098' NationalAeronautics and SpaceAdmiistration. Ames Research Center, Moffett Field, CA. lDENTlRCATlON AND SlYULATlON EVALUATION OF A COMBAT HELICOPTER IN HOVER JEFFERY A SCHROEDER National Aemutks and Space Ab ministration. Ames Reearch Center, Moffett F i . CA, MARK 8. TISCHLER. DOUGLAS C. WATSON, and MICHELLE M. ESHOW JwmalofG~idance,~,andDynamics(ISSN0731-5090) vol.
( B T N - 9 5 - E I X S ) COpyrighl 18, no. 1 Jmy-Febnrary 1995 p. 31-38 refS
. rechnigueswereused
f r a n e i g h t d a t a T h e ~ A H - 6 4 ~ ~ * w-m-parametrrmed . hthe
stabilitydemratnrefotm. ToimproveIhemodePs verlicel wilhartastabirtyaugwdmm
msponse,asimpletransfer-lunclionmodel~theefktsd dynmlicinfbwwas devebped.ThemOdei, WiulandwlthadstaWJty augnentation,wasthenevahratedbyAH-64pilotshamovingbase simctation. n was the opinion ofthe pibtslhaxihe simmlnl . wasa SatiSfadgrrw-nt-n . o f ~ ~ l o r ~ ~ o f ~ m
inthesuwwon thanintheekaaR - FU todevebpahover F-!E-Apacm- . .
. .
~neg?ivecommendwasumtheigMcarbdwasmorediffialt
A9s-81974 SR-71 YAY LAUNCH TARGETS FOR YlSSiLE DEFENSE TESTS WILLIAM B. SCOTT Aviatiar Week & Spaw Technalogy (ISSN 0005-2175) vd. 140. no. 12 March 21,1994 p. 56-57 ("-9591872) copyriem
H@qmedtergetvehidesair~franaNASAoperated
ingrealisticleslsofnerdgaasyar~misspsinterceprn sys- tems. A preliminary NAsAshdyindceteslhet ant dlhree sR7l
ResearehHERATargetSyslemmahdloaM57Al Minutemer Ithid-
SR-71 B k k M t d ~ g i v e p e n c B o a r ~ ~ ~ k r a n d u c t -
festbedstheagencyoperanscaldcmymdlfnmchaCdemm
stage booster. In esseuua, Ihe SR-71 wouid serve as a mlahdy inexpen9~,1~~&8tirstsIapdtbtergetvehide.TheSR-71wald carry Ihe HERAN57A1 tfqel in aproeeclive siwuci and laurchthe vehide at speeds up to Madl 3oforIheeter lTlissile defense tests. Variousscenariosdevekpedudertheshldy~kieffy~.
Hemef
N95-24541# Joint puMicaaions Research Senrice. Arlington, VA. JPRS REPORT: SCIENCE AND TECHNOLOGY. CENTRAL EURASIA 28 Feb. 1995 41 p Trand. into ENGUSH from various Central Eotasianartides
Transhted artides COvBr the tollowing topics: problemg of amstructngweldedairaattstnrchaes;autanabc . wewingofekmi- numandtitanimallqrrrtnrch#es;fusionweklingthirrsheet titaniun allaysto- . s t s d s ; a n d ~ . -m with laser-fused hard-facine cofmgs. kdhor
LansleY - center. Hempton, VA.
(JPRS-UST-95-011) Avail: CAS1 HC M F A01
N95-245lWX National ~eroneutics and Space Mminismim.
A CREWCENTERED FLIGHT DECK DESIGN PHILOSOPHY FOR HIGH-SPEED CIVIL TRANSPORT (HSCT) AIRCRAFT MICHAEL T. PALMER, WILLIAM H. ROGERS (ealt, B~KuI&, cnd N m , h.. Cambridge. MA.), HAYES N. PRESS &OCkh8& Winee~and&kncesCo.,Hampton,VA),KARAAUTOREW (State Univ. of New York, ~ufkrk, NY.), and TERENCE S. ABBOm
( ~ S y O r ' W S ) : RTOP 537-0&21-O1) ( ~ - l M - 1 0 9 1 7 1 ; NAs 1.15:109171) A01
Jan.1995 559
AvaB: CAS1 HC A W F
Past~dedcdesg~usedwilhinIheu.s.amnerdal transport aim industry have been highly - h produdng safeandeffidentakaaRHemtnrer,recentahrancesin~ ~~chengedtheWeypDotsoperateairaaftandthesedrangesmake &===vb- ' rdwdedcdes$n.fheHighSpeed
civil rans sport (HSCT) mission win kdyadd newkhrmbon *require- ments,suchaslhoseIwsaricboanmenagementandsupersonic/ wbsmic speed management- consequently, whether one is con- cemed with the design ofthe HSCT. or a next genemth subscmk aircraftthatwiu indude W d reaps in-m systems, basicissJesintrunanusaWltyOfcarplex-will&3-. Theseconcemsmustbeaddressed, in part, withanexpiidt mitEen designphaosophyfoarsingon-performanceandw-= opefamy in the ~oftheoveralloigMcrewlRightdedrsyem (i.e., a aewcentered ptrilosophy). This daxment provides such a phiksophy. expmsd as a set of guiding design w, and accanQaniedbY- . lhatwilhelpfoarsatBBntianonfligMaew issues~cnditeratively~thedesignprocess.ThisQament ispartlofatm-pmset Author
NSS-24629Y Ames Research Center, Moffeti Field, CA. GEOMETRIC ANALYSIS OF WING SECTIONS I.-CHUNG CHANG, FRANCISCO J. TORRES, and CHEE TUNG (Army Aviation Systems command. Moffett F i i . CA.) Apr. lW!i 18 P (Contract(s)/Grant(s): RTOP 50510-11)
A W F A01
National AeronauticS and Spece Administration.
(NASA-lM-110346; A-950049; NAS 1 . 1 5 : l l M ) Avail: CAS1 HC
-Thispeperdesuhsanewgeometricanefysisprocedurefor
forcontkwwsfuncbocls ' . A ~ e t d s p e d a l m - i s k r t r o - w i n g e e c t i o n s . T t r i s ~ * b a s e d o n t h e n o n n a l m o d e ~
dumdtofepmfmtthegeanebydthewingseetion.ThegeJleraton of the NACA 4digit airfoits were induded in this set of shape ~ . l t i s f o m d l h a t t h t 3 s l J p m m d . . wing seclion, Kom ahfuil, couldbew6tlrepr;esenPedbyasetoftensfrapefunclions Pdimi- naryresultsshorvedthatthe~r~pammeterstodefiAawing
researchdeedvancestheciMoildeslgnbchdOgybyredudng the number of design variables. Author
N95-246W# BrownUniv..providence , RI. Dept. of Engineering. AERODYNAMIC PARAMETER ESTIMATION VIA FOURIER MODULATING FUNCTION TECHNIQUES A.E.PEARSON Hampton.VA NASA Apr.1995 44p
(NASA-CR-4654: NAS 126:4654) Avail: CAS1 HC ko31MF A01 Parameter estimation a@xihm are developed m the fre-
quencydanaintorsystemsmodeledbyinpuVoutputordinarydiffer- entialequations.Theapproach isbasedonshinbroysmethodof moment functionats u t i l i Fourier based modulating functions. ~ w h i t e ~ n o l s e s f o r l i n e a r m r l l i v e r i a M e system modelS.~adeptiveweigMed~sqUafeSalgOfithmisdeveloped whichapproximatesatnaxhunlikeNhood estimabandaynatbe biasedby~initiatorboundaryarnditicr\sinthedataawing toaspecialspedalpropertyattadhg !3tWmt-typemod&thgfumtkms. AppacetionismadedoperhnbedknequaQknmodehgdlhekngi- tudinal and laterel dymnicsofahighperformance airvaft using flight-test data. Companmw, . studiesareindudedwhichdemok strate potential advantagesofthe algorithm relative to wme wen esteblishedtechniqueaforparametsrMentificadion
mnsferfuncbion identification problem for linear Systems and tothe parameter identificadion problem tor a dass of nonthrear-time- varying differential system models. Author
NSS-25334.X Natiaral Aeronautics and Space AdminisEration. Ames Research Center, Molfeit Field. CA. AERODYNAYIC SHAPE OPTIMIZATION OF WING AND WING-BODY CONRGURATlONS USING CONTROL THEORY JAMES REUTHER and WONY JAMESON (Princeton Univ., W.) Jan. 1995 33p (contnrct(S)Mrant(S): NAS2-13721) (NASA-CR-19802* NAS 126:198024; RIACS-TR-95-01) Avail: CAS1 HC AOWF A01
secbjon could be gceatly reducedtoaboutten. Hence. the pmsent
(Con&a~t(~)/Grant(~): NAG1-1065; RTOP 505-64-5243)
. . . least*rese~oftheapproacharemadelo~-~
This paper describes the implementation of optimizatiMl tech-
335
05 AIRCRAFT DESIGN, TESTING AND PERFORMANCE
niques based on control theory for wing and wing-body design. In previous studies it was shown that control theory could be used to devise an effective optimization procedure for airfoils and wings in which the shape and the surrounding body-fitted mesh are both generated analytically, and the control is the mapping function. Recently, the method has been implemented for both potential flows and flows governed by the Euler equations using an alternative formulation which employs numerically generated grids, so that it can more easily be extended to treat general configurations. Here results are presented both for the optimization of a swept wing using an analytic mapping, and for the optimization of wing and wing-body configurations using a general mesh. Author
N95-25578 Oklahoma City Air Logistics Center, Tinker AFB, OK. PROCEEDINGS OF THE 2D USAF AGING AIRCRAFT CONFERENCE C. 1. CHANG 19 May 1994 431 p Conference held in Del City, OK, 17-19 May 1994 (AD-A288217; AFOSR-94-0756TR) Avail: Issuing Activity (De- fense Technical Information Center (DTIC))
The Air Force Office of Scientific Research gathered together representatives of universities funded under the University Re- search Institutes to present results of their Aging Aircraft research conducted over the preceding year. The purpose was to provide a forum for Technical Interchange and provide AFOSR an opportu- nity for the research community to interact with the applied engi- neering community and gain insight into the day to day problems experienced on Aging Aircraft. Technical presentations by- personnal from HO AFMC/EN Wright Labs, ASC, the five Air Logistics Centers, FAA and NASA were delivered on various topics including corrosion, corrosion fatique, multi-site damage and ad- vanced non-destructive evaluation methods. Approximately 160 people attended the conference. DTIC
N95-25862# National Aerospace Lab., Tokyo (Japan). Aircraft Development Section. A QUIET STOL RESEARCH AIRCRAFT DEVELOPMENT PROGRAM Jan. 1994 35 p In JAPANESE
(NAL-TR-1223) Avail: CAS1 HC AOWF A01 This report presents a general account of a program undertaken
by the National Aerospace Laboratory to develop a STOL research aircraft, designated ASKA. ASKA made its first flight on October 28, 1985. Descriptions of the development over the eight years from 1 9 7 to 1985 are included along with descriptions of the aircraft and Its systems, and various development tests. ASKA Is a modlfied C1 medimsized troop and freight transport, manufactured by Kawaski Heavy Industries for the Air Self-Defence Force. The airframe was madeanewandthetwoenginesof C-1 werereplacedwithfourFJR710I 600s fanjet engines amnged as in upper surface blowing system to provide powered lift for STOL operations. Author
N95-25935 Aeronautical Research Labs., Melbourne (Australia). Airframes and Engines Div. CONFIGURATION AND OTHER DIFFERENCES BETWEEN BLACK HAWK AND SEAHAWK HELICOPTERS IN MILITARY SERVICE IN THE USA AND AUSTRALIA Abstract Only R. W. JACKSON Dec. 1993 1 p (AR-008-386; ARL-GD-43) Avail: Issuing Activity (Aeronautical Research Labs., Melbourne, Australia)
Various versions of Black Hawk and Seahawk helicopters have been produced to match the requirements of different operators. Some of the differences between these versions, particularly those relevant to the dynamic system, are briefly reviewed. Author
NQ5-26009 Mechanical Engineering Lab., Sakura (Japan). LONG ENDURANCE STRATOSPHERIC SOLAR POWERED AIRSHIP Mar. 1994 71 p In JAPANESE (PB95-178729) Avail: Issuing Activity (National Technical Infona-
336
(ISSN 0389-401 0)
tion Service (NTIS)) This is a report on HALROP (High Altitude Long Range Obser-
vational Platform), a solar powered airship entitled ‘Long Endurance Stratospheric Solar Powered Airship,’ and was published by the New Airship System Study Group of the Japan Industrial Technology Promotion Association. The report covers history of previous re- search on stratospheric platform; the concept and design specifica- tions of HALROP (a proposed model for 20 km altitude airship); relationship between the altitude and meteorological data; liftoff, descent, and recovery operations; design of high efficiency solar power system; structure and weight balance problems, a feasibility study of antarctic exploration by HALROP; the conceptual design of solar powered transport airship called JS-RESAT which makes use of the jet stream; and the feasibility study of stratospheric power generation. NTIS
N95-263381 General Accounting Office, Washington, DC. Na- tional Security and International Affairs Div. REPORT TO CONGRESSIONAL COMMITTEES. TACTICAL AIRCRAFT: CONCURRENCY IN DEVELOPMENT AND
19 Apr. 1995 33 p (GAOMSIAD-95-59; 8-259204) Avail: CAS1 HC AOWF A01
The concurrency between the development and production phases of the Air Force’s F-22 fighter program and the risk associ- ated with that concurrency are assessed. Although the F-22 pro- gram involves considerable risk because it embodies important technological advances that are critical to its operational success, the F-22 program exhibits a high degree of concurrency because the program will enter production well before commencement of initial operational testing and evaluation (IOTIE). The Air Force plans to procure 80 F-22s under low-rate initial production (LRIP), or 18 percent of the total planned procurement, at an estimated cost of $12.4 billion, before completing IOTIE. F-22 production rates in the LRlP phase are planned to accelerate so that 75 percent of the full- production rate, or 36 aircraft a year, will be achieved under the LRlP phase of the program. The planned rate of acceleration, it is believed, exceeds the amount that is needed to successfully com- plete the LRlP phase of the program and essentially represents a plan to commit to a full-rate production schedule before IOTIE is completed. The need for the F-22, based on analysis, is not urgent. Moreover, engine and stealthiness problems already disclosed by DOD. and the potential for avionics and software problems, under- score the need to demonstrate the weapon system’s perfonance through flight testing before significant commitments are made to production. CAS1
PRODUCTION OF F-22 AIRCRAFT SHOULD BE REDUCED
06 AIRCRAFT INSTRUMENTATION
Includes cockpit and cabin display devices; and flight instruments.
A95-81096
AUTOPILOT DESIGN CHING-FANG LIN American GNC Corp, Chatsworth, CA, United States, JAMES R. CLOUTIER, and JOHNNY H. EVERS Joumal of Guidance, Control, and Dynamics (ISSN 0731-5090) vol. 18, no. 1 January-February 1995 p. 46-53 refs
Subjects related to a robust multivariable autopilot design are examined. First, a canonical robust control design formulation is introduced and is Illustrated by formulating an integrated autopilot design problem. This formulation addresses the considerations of missile command following, model parameter variations, actuator dynamics, flexible dynamics, and parasitic feedback effects. Then, three robust autopilot designs for the HAVE DASH 2 missile system are executed. The controllers are solved using the generalized Hamiltonian approach which unifies a class of robust control designs
HIGH-PERFORMANCE, ROBUST, BANK-TO-TURN MISSILE
(BTN-95-ElX95242670751) Copyright
AIRCRAFT INSTRUMENTAllON 06
in the same framework in terms of the formufation, data structure, and solution algorithm. The simulation shows that the designs achieve good response against significant kinematic and inertia couplings and aerodynamic parameter variations. Author (El)
N95-24207V Lewis Research Center, Cleveland, OH. THE 1994 FIBER OPTIC SENSORS FOR AEROSPACE TECHNOLOGY (FOSAT) WORKSHOP ROBERT BAUMBICK, comp., GRIGORY ADAMOVSKY. comp.. MEG TUMA, comp., GLENN BEHEIM, comp., and JORGE SOTOMAYORcomp. Feb.1995 Wp WorkshopheMinCIevelsnd OH. 16-20 oct 1994 (contract(s)/orant(s): RTOP sossooo) (NASA-CP-10166; E-9426; NAS 1.55:10166) Avail: CAS1 HC r4W MF A01
The NASALewis Research CenterconductedatmfkSbpon fiber optic techndogy on October 16-20, 1994. The workshop objaiw was to d i the future direction of fiber optics and optical sensor research, espedally in the aerospace arena The workshop was separated into four sectiom (1) a Systems section which dealt specifidly wim top level overall architectures forthe aircraft and engine; (2) a Subsystems Section cwidered the Parts and pieces that made up the SdsystemS ofthe overall systems; (3) a Sensor/Actuators section CMISidered the status of research on passive optical sensors and optical pawered achratorr; and (4) Components Section which addressed the int- for the optical systems (e.g.. opaical cocmectors, optical fibers, etc.). This report contains the minutes of the d i m s u n . ontheworkshop,m in each section and m the plenarv sessions. The slides used bya limited number of pmsenters am also induded as presented. No attemptwasmadetohomogenizethisreport.Theviewdmostofthe attendees was: (1) the gwmmentmstdo a better job of dbsemi- natmg technical information in a more timely fashion; (2) enougt~ work has been done onthecomponents, and systemtevelarchitec- &:e definition musi dictate what work should be done on compo- nents; (3) a photonics Steefing Committee should be fonned to coordinate the efforts of government and industry in the photonics area, to make sure that pmgrams complimented each ather and that technoiogytransfened fromone program was used in other pro- grams to the best advantege of the government and industry.
Author
National Aeronautics and Space Administration.
N95-24624%' National Aeronautics and Space Administration. Lewis Research Center, Cleveland. OH. ASSESSMENT OF AVIONICS TECHNOLOGY IN EUROPEAN AEROSPACE ORGANlUTfONS Final Contractor Report D. A. MARTINEC (Aeronwthl Radio, Inc., Annapdi. MD.), ROB- ERT BAUMBICK, ELLIS HllT (Battelle Colrrmkrs Labs., OH.), CORNELIUS LEONDES (Washington Univ., Beliingham, WA.). MoNlCAMA~ON(AirForceSystemsCanmend.Wright~
TX.). and JOSEPH TRAYBAR (Federal Aviation Admbristration. Atlantic City, NJ.) 21 Sep. 1992 179 p (cOntraa(S)lGrant(s): N-8622)
AOSIMF A02 This report pr0vi-s a summary of the obsenrations and
recommendationsmadebyatechnicalpaneifamedbytheNationel AeronauticsandSpace Administration (NASA).Thepanel.#Wnpri* ina experts in the avionics field. wwi tasked to visit various WWdzations in Europe to assess the level oftechndogy planned for USB in man- dvil avionics in t h e m . The Prknary P u m of the study was to asses - SYstems mforknplementa tion oralready empkyed on dvil ai- and to-htehrtumresearch, develogment. andellghmw * (RD&E) programs, address avionic systems and a i d mm. The ultimate goal is to ensure that the techndogy addressed by NASA prog~~commensuratewiththeneedsoftheaerospeeekdustry
AFB, OH.), JOSEPH SCHWlND (Air l i i Pilots Arrsodation ,Deniscn,
(NASA-CR-189201; E-9592; NAS 1.26:189201) Avail: CAS1 HC
at an international level. The panel focused on specific technolO@8S. including guidance and control systems. advanced cockpiit displays. sensors and data networks, and fiy-by-widlly-by-light systems. However, discussions the panel had with the European organiza- tions were not limited to these topics. Author
NQS-254IOS National Aerospace Lab.. Tokyo (Japan). contrd systems Div. FLIGHT REFERENCE DISPLAY FOR POWERED-UFI STOL AlRCR AFT KElJl TANAKA, KOHEI FUNABIKI. MASARU NAKAMURA, YUSHI TERUI, TOSHIHARU INAGAKI. HlROYASU KAWAHAFtA,YUKICHI TSUKANO, and TAKATSUGU ON0 oct 1994 26 p (ISSN 0389-4010) (NAL-TR-1251) Avail: CAS1 HC A W F A01
This study deals with a proposed flight reference display for pcmereblilt S O L aircraft The display design aims at providing pilots with new contrd cues for maintaining S i safety during low- speed high-power approach. The display Utilites angle of atlW2k. pitch angle, and airspeed to i n d i t e the flight reference for maintab mg the flight safety margins. piloted simulation Iffingamoving-base flight sknulator WBS conducw to veer#vthedisplaysCheme. me paramtersofthe~yequations were designed on the basis of the RigM test achievements of 'ASKA.' the axperimental S O L aircraft of the National Aerospace Labonmy. This preliminary evaJuationdemanstratedthatthedispkycanbeusedforbo#fiQhi reference tracking and safety margin rlmbing. and prwided appropriate values of coeffiaents . of the display equations. The succeedkrgflitevaluafion . Oftheptoposedciiom-dWay W8Sconductedaft9rinstaUithedisplayuponanin-fligtltsimutatw, whc6Ia mation cues yield ultimate tideliofflight simuMon .emrirorr ment for the display evaluation As the i n - f l i simutetor, the variable stabilii and msponse airplane (VSRA) of the Nationel Aerospace Laboratory was utitized for this experiment. fhe fliht reference display for this flight evaluation WBS developed by using a d o r iiquid ctystel display. The results of the approach flight experiments provided proof of satisfactory performance of the display for pilots to monitor and reg- the safety margins, as well aswggesbon . forfutureimprwement Mhor
NQS-26190 OrgadWe VOOT 7- -lijk Ondenoek, Delft (Netherlands). PARTIAL CAMERA AUTOMATION IN A SIMULATED UNMANNED AIR VEHICLE Interim Report J. E. KORTELlNGand W. VANDERBORG 5ocl, 199429 p Limited Reprodudbility: Morethan20%ofthisQwmentmaybeaffectedby
Activity (Defense Technical lnfwmation Center (DTIC)) With the rapidderelopmentofautomaticwntmltechn@wa
central question is how the division of labor between the human operator and the- should be optimallyd&hbubd. In Ws connection, the present study foanrsed on an intellisem. semi- autanomous. brterface fora camera apemtorof asimulated UW manned Air Vehide (UAV). This imerface used inherent system -ge- 'ng UAV motion m order to assist a camera operatormtreckinganobjectmovingthraughthetandscapebekw. This landscape was sensored by the video ~ame~attechedtothe UAV-p&thn and pnrsented to the operator on a monitor display. Thesemigutomatedsystemcompensatedforthetranslationsofthe UAV relative tothe earth. Thii cOmpetlSabiOnwas eccomparued ' by theappropnabs . ~ ~ m s e n s u r i n g t e c t i l e ( h a p b i c ) f e e d - back dlhesesystem intenrentions. The opcuatorhadto srgerim posecameramcrvementsovermesesystem~requhedlo tradrthe motion ofatarget (adrivingtnrdr) mktivetothetenain. Consequently, the operator remained in the kop; he still had total contrd ofthe camera-motion system. In order to hedoate the effects ofthis semi-automation m r a broad range of task situations the tracking task was carried out under two c o n d i ~ ~ of up& freguency of the monitor image and control mode diffiarfty. DTIC
microfiche quality (AD-A288786; TNO-TM-1994-516; TDCK-962179) Avail: Issuk\g
337
07 AIRCRAFT PROPULSION AND POWER
07 AIRCRAFT PROPULSION AND POWER
Includes prime propulsion systems and systems components, e.g., gas turbine engines and compressors; and on-board auxiliary power plants for aircraft.
N95-24213'1 Aubum Univ., AL. Dept. of Mechanical Engineering. DYNAMIC BEHAVIOR OF A MAGNETIC BEARING SUPPORTED JET ENGINE ROTOR WITH AUXILIARY BEARINGS ABDOLLAH HOMAIFAR. ed. (North Carolina Agricultural and Tech- nical State Univ., Greensboro, NC.), JOHN C. KELLY, JR., ed. (North Carolina Agricultural and Technical State Univ., Greensboro, NC.), G. T. FLOWERS, H. XIE, and S. C. SINHA Albuquerque, NM 1994 7 p Presented at the First Industry/Academy Symposium on Research for Future Supersonic and Hypersonic Vehicles: Applica- tions, Design, Development and Research, volume 1, Greensboro, NC, 4-6 Dec. 1994 Its TSI Press Series (Contract( s)/G rant( s): NAG9 1 507) (NASA-CR-197860; NAS 1.26:197860) Avail: CAS1 HC A02/MF A0 1
This paper presents a study of the dynamic behavior of a rotor system supported by auxiliary bearings. The steady-state behavior of a simulation model based upon a production jet engine is explored over a wide range of operating conditions for varying rotor imbal- ance, support stiffness and damping. Interesting dynamical phe- nomena, such as chaos, subharmonic responses, and double-valued responses, are presented and discussed. Author
N95-24293 Northern Research and Engineering Corp., Woburn, MA. SMALL GAS TURBINE COMPONENT EVALUATION STUDY Final Report, Jun. 1990-1992 J. 8. KESSELI Jun. 1994 114 p Sponsored by Gas Research Inst. Limited Reproducibility: More than 20% of this document may be affected by microfiche quality (Contract( s)/G rant( s): G Rl-5089-29 1 -2077) (PB95-147542; NREC-1762: GRI-94/0350) Avail: CAS1 HC A06
The low pressure ratio, highly recuperated gas turbine engine is a candidate for future small (under 200 kW) cogeneration systems and other prime-mover applications. Existing gas engine equipment (cogeneration, chillers, pump and compressor-drives) based on spark ignition (Otto cycle) technology has not been successful enough to substantially expand the sale of natural gas. The small gas turbine is being considered for its potential economic advan- tages that stem from superior reliability (lower maintenance costs), increased shaft-power efficiency, less costly installation, and lower costs associated with meeting future emission standards. In this study and experimental program, the focus was in two areas of critical importance. These are the ability of the engine to meet future California State emission standards, and the cost-effectiveness of the recuperator. A complete engine test was performed based on non-developmental commercial components, including a non-opti- mum recuperator. NOx emissions were below 5 ppmv at 15% excess oxygen, while carbon monoxide was in the range of 25 ppmv. Engine electrical generation efficiency was 21 %with a 71% effective recuperator, proving that the goal of 30 to 33% electrical efficiencies are attainable with an optimally sized recuperator. NTlS
N95-24304.1 McDonnell-Douglas Aerospace, Long Beach, CA. ADVANCED SUBSONIC AIRPLANE DESIGN AND ECONOMIC STUDIES Finrl Roport ROBERT H. LIEBECK, DONALDA. ANDRASTEK, JOHNNY CHAU. RAQUEL GIRVIN, ROGER LYON, BLAINE K. RAWDON, PAUL W. SCOTT, and ROBERT A. WRIGHT Apr. 1995 37 p (Contract(s)/Grant(s): NAS3-25965; RTOP 538-08-1 1 ) (NASA-CR-195443; E-9488; NAS 1.26:195443) Avail: CAS1 HC
A03/MF A01 A study was made to examine the effect of advanced technol-
ogy engines on the perfomance of subsonic airplanes and provide a vision of the potential which these advanced engines offered. The year 2005 was selected as the entry-into-service (EIS) date for engindairframe combination. A set of four airplane classes (passen- ger and design range combinations) that were envisioned to span the needs for the 2005 EIS period were defined. The airframes for all classes were designed and sized using 2005 EIS advanced technol- ogy. Two airplanes were designed and sized for each class: one using current technology (1995) engines to provide a baseline, and one using advanced technology (2005) engines. The resulting engindairframe combinations were compared and evaluated on the basis on sensitivity to basic engine performance parameters (e.g. SFC and engine weight) as well as DOC+I. The advanced technol- ogy engines provided significant reductions in fuel bum, weight, and wing area. Average values were as follows: reduction in fuel bum = ~WO, reduction in wing area = 7%, and reduction in TOGW = 9%. Average DOC+I reduction was 3.5% using the pricing model based on payload-range index and 5% using the pricing model based on airframe weight. Noise and emissions were not considered.
Author
N95-24390'1 National Aeronautics and Space Administration. Lewis Research Center, Cleveland, OH. CROSSFLOW MIXING OF NONCIRCULAR JETS D. S. LISCINSKY (United Technologies Corp., East Hartford, CT.). B. TRUE (United Technologies Corp., East Hartford. CT.), and J. D. HOLDEMAN Feb. 1995 13 p Presented at the 33rd Aerospace Sciences Meeting and Exhibit, Reno, NV, 9-12 Jan. 1995; spon- sored by A I M Original contains color illustrations (Contract(s)/Grant(s): NAS3-25954)
0732) Avail: CAS1 HC A03/MF AOl; 5 functional color pages An experimental investigation has been conducted of the
isothermal mixing of a turbulent jet injected perpendicular to a uniform crossflow through several different types of sharp-edged orifices. Jet penetration and mixing was studied using planar Mie scattering to measure time-averaged mixture fraction distributions of circular, square, elliptical, and rectangular orifices of equal geometric area injected into a constant velocity crossflow. Hot-wire anemometry was also used to measure streamwise turbulence intensity distributions at several downstream planes. Mixing effec- tiveness was determined using (1 ) a spatial unmixedness parameter based on the variance of the mean jet concentration distributions and (2) by direct comparison of the planar distributions of concentra- tion and of turbulence intensity. No significant difference in mixing performance was observed for the six configurations based on comparison of the mean properties. Author
NB5-24392'U Iowa State Univ. of Science and Technology, Ames, IA. STUDY OF COMPRESSIBLE FLOW THROUGH A
Final Report JEFFRY FOSTER, THEODORE H. OKIISHI, BRUCE J. WENDT (ModemTechnologiesCorp.. Middleburg Heights, OH.), and BRUCE A. REICHERT (Kansas State Univ., Manhattan, KS.) Cleveland, OH NASA Apr. 1995 61 p (htract(s)/Grant(s): NAG3-1561) (NASA-CR-4660; E-9582; NAS 1.26:4660) Avail: CAS1 HC AO4lMF A01
Detailed flow field measurements are presented for compress- ible flow through a diffusing rectangular-to-semiannular transition duct. Comparisons are made with published computational results for flow through the duct. Three-dimensional velocity vectors and total pressures were measured at the exit plane of the diffuser model. The inlet flow was also measured. These measurements are made using calibrated five-hole probes. Surface oil flow visualiza- tion and surface static pressure data were also taken. The study was
(NASA-TM-106865; E-9477; NAS 1.15:106865; AlAA PAPER 95-
RECTANGULAR-TO-SEMIANNULAR TRANSITION DUCT
338
AIRCRAFT PROPULSION AND POWER 07
conducted with an inlet Mach number of 0.786. The diffuser Reynolds based on the inbt centerline velocity and the exit diameter of the diffuser was 3.200,OOO. Comparison of the measured data with previously published computational results are made. Data derOn- strating the ability of vortex generatom to reduce Row semtion end arcumferential distortion is also presented. Author
N95-24561'X National Aeronaubi~~ and S- Admi~MratM. Lewis Research Center, C l e V ~ W . ot(. THE EFFECT OF ALTITUDE CONDITIONS ON THE PARTlCLE EMISSIONS OF A J65-GE-5L TURBOJET ENGINE JUNE ELIZABETH RICKEY Feb. 1995 52 p (contract(s)/Grant(s): RTOP 505-62-00)
A W F A01 Partides from a J85GE-5L turbojet ensine were meBsured
over a range of engine speeds at simulated alwlde amditbs ranging from near sea level to45,WOftandatRighi Mach nunbets of 0.5 and 0.8. samples were collected trom the engine by using a specially designed probe pcsitioned several inches behind the exhartst nozzle. A differential mobility partide Siring system was used to determine partide size. Partide data measured at near sea- level c o n d i i s were compared Navy Airaaft EmmomnenEal Support Office (AESO) particle data taken fran a GEJ854A engine ata sea-bvei static amrlii. Partide datafranthe JB5 fm@ine w ~ r e also compared with partide data from aJ85 combusWatthree different simulated altitudes. krthor
N95-2- National Aerospace lab., Tokyo (Jepan). EFFECT OF FILM COOUNOlREOENERATlVE COOUNG ON SCRAMJET ENGINE PERFORMANCES FUMlEl ONO, TAKESHI KANDA, -0 MASUYA, TOSHlHlTO SAITO, and YOSHIO WAKAMATSU Jul. 1994 16 p In JAPANESE (ISSN 03es-4010)
Film coding was modeled to allow perhnmx prediction of scramjet engine design. The model was based on experimental results of compressible mixing layers forthe vicinity ofthe injedbn
region far from the slot Them coofingmodelwas integmdtoa quasi one-dimensional scmmjet perfomranoe pmdktion model. In the engine employing a combination of fikn cooling and regeneralive cooling. coolant flow rate of the mghe slightly exceeded the stoichiometric flow rate, even at high flight Mach nmben. and had the best specific impulse and system pressure-.- advantages were achieved by inaessing the vdune fiow rate and decreasing the veloci difference between the mein fkvv and the coolant, both due to an inaease in the film coolanttemperature. The
regenerative cooli was also advantagclarsmlhal excess cooling
(NASA-TM-106669; E-9143; NAS 1.15:106669) Avail: CAS1 HC
(NAL-TR-1242) Avail: CAS1 HC AO3NF A01
slot. and on analytical results of the hnadentbwndary rayer inthe
effective coding system with a combination offilmcodingand
ofthe engine wall COUM beavoided. Theambkration drncoding a n d r e g e ~ t i v e c d i n g w a s a l s o ~ f r a n ~ ~ o f t h e propeuantfeedsystem.TheturbineexhaustgaswassuitaMeforthe codant of film coding. krthor
NGS-25395Y Queendand Univ., Saint Luda (Mi). Dept. of Mechanical Engineering. THRUST MEASUREMENTS OF A COMPETE AXISYMMETRIC SCRAMJET IN AN IMPULSE FACILITY A. PAULL, R. J. STALKER, and D. MEE In%ShockTunnel Studies of scramjet p h e m 1993 p 15-18 Jan. 1995 sparsored in Cooperatiar with NASA. L a t ~ l q Research cerdercmd the Awtra- lianResearchcocmdl Avail: CAS1 HC AOlMF A02
Thispepeadescribestestswhichwemcondmedbrthehyper- sonic impulse fadlii T4 on a fully integrated &symmeW scmmjet amfiguration. In these tests the net force on the SQamjet vehicle was measured using a deconvdution force balance. This- ment technique and its application to a complex model such as the sumjet am d i i . R e s u l t s a r e p r e s e n t e d f o r t h e ~ s
aerodynamic drag and the net force on the scram@t when fuel is injected into the combustion chambers. It is shown that a Scrarnjet using a hydrogen-silane fuel produces greater thrust than its aero- dynamic drag at flight speeds equivalent to 260 d s . Author
N95-253W# Queensland Univ., Saint Lucia (Australia). Dept Of Mechanical Engineering. SCRAYJETTHRUSTUEASUREMENTINASHOCKTUNNEL A. PAUU R. J. STALKER. and D: J. MEE In ifs Shodc Tunnel studies of Scramjet Phenomena 1993 p 19-27 Jan. 1995 spok soredincooperaMwiththeAustreken ' Research Council Avail: CAS1 HC AMlMF A02
This note repds tests in a shock tunnel in which a fully
ments not only showed that impulse W l i c8n be ustad for ofthe
epplicationofanewtechnQmtothemeaarrementofUwuston scramjet configurations in shodctumels. Thesetwodevekpments are of s i g n i i because snarrrjets are expected tooperate at speeds well in excessof 2 knlsec. and shock tunnels offer a means ofgeneratinghighMachnumberlbvsatsuchspeeds. Aumor
integrated scramjet Configuram produced net thm. The experi-
assessing thrustperfonnance, but also were ademonstrabon .
N95-2snTrx QueendandUniv..SaintLucia(AUstrelia). oept of Mechanicel Engineering.
SEANTUTRE InitsShodcTunnelshrdiesofsaarrrjetphenom e m 1993p 29-36 Jan. 1995 Avail: CAS1 HC A W F A02
The t w o - d i thrust nozzle presents a chabqhg problem. The loading is notaxisymmetric as m the case of acone andtheinternalfbnvpresents~designcliffiahbes . .A- system has been &osento aaamomethe internal Ikw and achieve some symmetry. The situation iscomplicated by the fad that with the small ramp angle and the internal pressure on the nozzle walls. loading is predorninantfy transverse. Yet it is the axial thrust which is to be measured (Le., the tensile waves propagating in the stings). Although bending stnrsswavestrevel at most at only 6o%ofthespeedofthe axial sbeas waves. thesystemneedstobe s t i f f e n e d ~ b e r w l i n g . T h e ~ s t i n g w a s ~ o n l y u p e d to preserve symnetry. However, the pmssufes on each thrust surface may be quite differentatplwnecondi, so atmsstege the sign&sirom both slings am beq averaged as a f i m order approximation ofthe net thrust The expscted axial Uuusthwn this nozzle is not large so thin m a r e required. In addith. thecontact areabetween nozzle and sting needstobemaximized. The resull was that it was decided to twist the stings through 90 deg. withwt d-ngtheir . shape,justaftofthenozzle.F~ element analysis shawed that this woukt not significantly alter the pmpagationof the axial stress wave inthe sting, whilethe risidityd t h e s y s t e m i s g m a n y ~ .AMach4cartouednonlei~used inthelmqmhms . T h e t h r u s t c d c u k & d b y ~ t h e s t f l t i c presWremeesuremerfts~the~surfacesiSannperedwiththe decomrolvedstrakrmeesurementofthenetthrustforthecasesof air onlyand hydrogen fuel injected indo drat appximaWy9 MJjkg nozzle supply enthalpy. The gain in thrust due to combstm . is Wbleinthisresult Derivedfromtexl
THRUST MEASUREMENT IN A 2-D SCRAMJET NOZZLE
N9525936 Aeronautical Research Labs., Melbourne (krstrali). AirframesandEnginesDiv. ASSESSMENT OF OVERHAUL SURGE MARGIN TESTS APPLIED TO THE T53 ENGINES IN ADF IROQUOIS HELICOPTERS Abstract Only P.C. w. mm F&. 1994 1 p (AR-00&389; ARL-TN-48) Avail: IWng Activity ( h e Resecych Labs., Melbarme, Australia)
The validity of the tea procedures UsBd at ovemautto establii the surge margin of Lycoming T53 engines irrsteued in Austmlii Defence Force (ADF) Iroquois h e l i r s has been assessed. Recommendations are made on the use of wa-tesk. on the
339
08 AIRCRAFT STABILITY AND CONTROL
increased surge margin applied at overhaul to ADF T53 engines and on the implementation of improved inspection criteria at the unit level. Author
08 AIRCRAFT STABILITY AND CONTROL
Includes aircraft handling qualities; piloting; flight controls; and autopilots.
A95-79251 AEROSERVOELASTIC ASPECTS OF WlNGlCONTROL SURFACE PLANFORM SHAPE OPTIMIZATION ELI LIVNE Univ of Washington, Seattle, WA, United States and WEI-LIN LI A I M Joumal (ISSN 0001-1452) vol. 33, no. 2 February 1995 p. 302-31 1 refs
Equivalent plate structural modeling and doublet point lifting surface unsteady aerodynamics are used to obtain analytic sensi- tivities of aeroelastic and aeroservoelastic response with respect to wing and control surface planform shape parameters. Rational function approximations for unsteady aerodynamic forces, their shape sensitivities, and the resulting linear time invariant state space models of aeroservoelastic systems and their shape sensitivi- ties are examined. The goal is to develop effective and numerically efficient approximation techniques for wing shape optimization for use with nonlinear programming and approximation concepts as a multidisciplinary optimization strategy. Effects of structural and unsteady aerodynamic modeling errors are studied. Examination of apptoximation accuracy using alternative approximation techniques (and the resulting move limits) provide insight and experience on the way to realistic wing/control surface shape optimization with active controls and aeroservoelastic constraints. Author (El)
(BTN-95-EIX95222650795) Copyright
N95-24260 National Defence Research Establishment, Linkoeping (Sweden).
CONTROLLED HELICOPTER [INTERFACE MELLAN DIGITAL KOMPASS OCH RADIOSTYRD HELIKOPTER] C. EKSTROEM Jun. 1994 13 p In SWAHILI (PB95-164927; FOA-(2-30768-3.6) Avail: Issuing Activity (National Technical Information Service (NTIS))
One can use a digital compass as a tool to navigate a semiautonomous mini helicopter. This thesis describes how to create an interface between the digital compass (KVH C100) and the controlling servos in the mini helicopter. NTIS
INTERFACING A DIGITAL COMPASS TO A REMOTE-
09 RESEARCH AND SUPPORT FACILITIES (AIR)
Includes airports. hangars and runways; aircraft repair and overhaul facilities; wind tunnels; shock tube facilities; and engine test blocks.
A9541020 SUPERCOOLING IN HYPERSONIC NITROGEN WIND TUNNELS WAYLAND C. GRlFFlTH North Carolina State Univ, Raleigh, NC, United States, WILLIAM J. YANTA, and WILLIAM C. RAGSDALE Joumal of Fluid Mechanics (ISSN 0022-1 120) vd. 269 June 25 1994 p. 283-299 refs
Recent experimental observation of supercooling in large hy- personic wind tunnels using pure nitrogen identified a broad range
(BTN-94-EIX95011441134) Copyright
340
of nonequilibrium metastable vapor states of the flow in the test cell. To investigate this phenomenon a number of real-gas effects are analyzed and compared with predictions made using the ideal-gas equation of state and equilibrium thermodynamics. The observed limit on the extent of supercooling is found to be at 60% Of the temperature difference from the sublimation line to Gibb's absolute limit on phase stability. The mass fraction then condensing is calculated to be 12-14%. Included in the study are virial effects, quantization of rotational and vibrational energy. and the possible role of vibrational relaxation and freezing in supercooling. Results suggest that use of the supercooled region to enlarge the Mach- Reynolds number test envelope may be practical. Data from model tests in supercooled flows support this possibility. Author (El)
N95-24302'# Purdue Univ., West Lafayette, IN. School of Aero- nautical and Astronautical Engineering.
LAMINAR-TURBULENT TRANSITION RESEARCH Final
STEVEN P. SCHNEIDER Feb. 1995 172 p (Contract(s)/Grant(s): NAG1-1607) (NASA-CR-198040; NAS 1.26:198040) Avail: CAS1 HC AOB/MF A02
This grant supported research into quiet-flow supersonic wind- tunnels, between February 1994 and February 1995. Quiet-flow nozzles operate with laminar nozzle-wall boundary layers, in order to provide low-disturbance flow for studies of laminar-turbulent transition under conditions comparable to flight. Major accomplish- ments include: (1) development of the Purdue Quiet-Flow Ludwieg Tube, (2) computational evaluation of the square nozzle concept for quiet-flow nozzles, and (3) measurement of the presence of early transition on the flat sidewalls of the NASA LaRC Mach 3.5 super- sonic low-disturbance tunnel. Since items (1) and (2) are described in the final report for companion grant NAG1 -1 133, only item (3) is described here. A thesis addressing the development of square nozzles for high-speed, low-disturbance wind tunnels is included as an appendix. Author (revised)
SUPERSONIC QUIET-TUNNEL DEVELOPMENT FOR
Report, Fob. 1994 - Fob. 1995
N95-24388Y North Carolina State Univ., Raleigh, NC. DEVELOPMENT OF A MODEL PROTECTION AND DYNAMIC RESPONSE MONITORING SYSTEM FOR THE NATIONAL TRANSONIC FACILITY CLARENCE P. YOUNG, JR., S. BALAKRISHNA (Vigyan Research Associates, Inc.. Hampton, VA.), and W. ALLEN KILGORE (Calspan Corp., Hampton, VA.) Feb. 1995 30 p Prepared in cooperation with ViGYAN. Inc. and Calspan Corp. (Contract(s)/Grant(s): NCCl-141; RTOP 505-59-85-01) (NASA-CR-195041; NAS 1.26:195041) Avail: CAS1 HC AOmF A01
A state-of-the-art, computerized mode protection and dynamic response monitoring system has been developed for the NASA Langley Research Center National Transonic Facility (NTF). This report describes the development of the model protection and shutdown system (MPSS). A technical description of the system is given along with discussions on operation and capabilities of the system. Applications of the system to vibration problems are pre- sented to demonstrate the system capabilities, typical applications, versatility. and investment research retum derived from the system to date. The system was custom designed for the NTF but can be used at other facilities or for Other dynamic measuremenffdiagnostic applications. Potential commercial US88 of the system are de- scribed. System capability has been demonstrated for forced re- sponse testlng and for characterizing and quantifying bias errors for onboard inertial model attitude measurement devices. The system is installed in the NTF control room and has been used successfully for monitoring, recording and analyzing the dynamic response of several model systems tested in the NTF. Author
ASTRONAUTICS 10
N%-24424 Baker (WWred) Engineering, Inc., San Antonio, TX.
BERMED AIRCRAFT SHELTERS Final Technical Report, 22 May 1991 - 15 Feb. 1992 MARK G. WHITNEY and KATHY H. SPIKY Jun. 1993 52 p Limited Reproducibili More than 20% of this dowment may be affected by microfiche quality (Contract(s)lGrant(s): Fo8635-91-C-0189) (ADA279692; WE-228-001 ; AFCEMSL-TR-92-25) Avail: CAsi HCAo4
The subject work has been performed rrnder Phase 1 of an SBlR program sponsored by Tyndalr MB. The effort commmtd o n d e v e k p n e n t o f m e t h o d s l o q u a n l i f y ~ ~ h a n a c c i - dentalexpkkshsinsideearth-bermedanlunbermedaimaftshel- ters. The Phase 1 effort addeseed shock bading, gas loading. debris breakup. and detwisthrrm.TheprediclDn model, ouantity- Distance Requirements for Airaaft shelters (OMUCS), indudes new programming which lises ifna!p cherges and ray-tracing of shodss for the spedfic ~eomety of an ahaaft shelter. Interior surfacesare divided intoagridofrectangJarelements. shodcloeds amcalartated at each elementfor upto2Omunitkmstadrs. Existing data were utilized to detem-tina stnrctural breakup dependence on loadhbnsityandthefomurbon . ofsmaaoriargedebris.venbingis calculated wingthe FRANGproOramasawbroubne . tooDRAcs. butwithspecieltreatmentfwdefiningventareaandventperimeter basedonthebreakuppattem.andventingprwidedbythedoor.fhe velocity of ali missiles is calartaaed based on auWwibm fromboth theshodcandgaspresa#ekading.Debrisdispersioniscaladeted Using MUDEMIMPasasrlww8he. Model msdbwereumpedlo the Q-D criteria based on DISTANT RUNNER tests. Hazard dis- tances for Event 4 were prediaed wilhin 20 pmwnt, and for Event 5, within 5 pewnt of the DISTANT RUNNER data DTIC
QUANTlTY-DISTANCE REQUIREMENTS FOR EARTH-
N95-2!SW# Queendand Univ., sakd Luda (Australie). Dept of Mechanical Engineering. THE SUPERORBITAL EXPANSION TUBE CONCEPT, EXPERIMENT AND ANALYSIS A. J. NEELY and R. G. MORGAN In its Shock Tunnel sbrdies of * m t phenomena 1993 p 97-105 rooperetionwiththe Australian Researchcandl Avail: CAS1 HC A W F A02
In response to the need for ground testing f a d t i i d o r srper orbiil resntry research, a smell scalefaciiii has been setup atthe University of Q~~eensland to demanstrate the superwbjtel expan- sion tube concept. This unique &vice is a i m piston driven. triple diaphragm, impulse shodr fadlity which uses ?he mlhalpy mrftipli- cation mechanii of the rnrsteady expamion p10cess and the a d d i i of a secondary shock driver lo further heat the driver gas. The pilot facility has been operated to produce test flows in air with shock vekcities inexcess of 13kn/send with a useMetestRawdurationaS?headerd15miar,rrec.anc#cperimbn- talcondibon . producedintheGci#tywithwldl108MJ/kg a n d a t o t a l p r e s s u r e o f 3 3 5 M P a i s ~ . A ~ ~ l b w model which accwnts for nonMeal ~pture of the light tertiary diaphmgm and the msuHing entmpy inaease in the test gas is d i s a r s s e d . I t i s ~ ~ e q u i y k i u n ~ . 'I[WB- model theunsteadyexpanskmprocesslhancakukms assumin0 h e n chemistry. This is because the high emhadwflaws produced m the facility can only beeehieved if the chemicd energyaored m thetesttlowdwing&xkhealingheatingthetestgasisispartiallyrehrmed to the flow during the proceirsdunsted~e4?ansh. Meesunr- mentsofheattransferratestoailatplatedmomtmbtheMability
rateJswith-catale$aar aMlmsth.usat lk~dlha Rowmodd. Author
Jan. 1995 sponsored h
a f t e s t f l o w f o r a e f o u l e ~ ~ a n d ~ * ofthese
m)5.26053 Wright Lab., Wrigm-PattemOn AFB, OH. HEAT TRANSRR MEASUREMENTS IN SMALL SCALE WIND TUNNELS Flnal Report, 1 Nov. I983 - 1 Sep. WE7
JAMES R. HAYES Jun. 1994 36 p Limited Reprodudbility: hbm than 20% of this document may be affected by microfiche q m M y (Contract(s)/Grant(s): AF PROJ. 2404)
Technical Information Center (DTIC)) This report describes an effort at the Flight Dynamics Director-
ate to use small scale models. miniature instrumentation and smaH in-howe hypersonic facilities to accomplish full configwational testing of vehiie concepts. The proiect induded developmei? of proceduresfor generating model geometlydata and transrrpttnrg that data to495th TW machine shops of model fabrication on NC machines.Ad&CUSShofproMempeculiarto~ofsmeHscale modetsiskrduded.Acompanson . ispresentsdofdatatakenlrnder thii effortwith similar data taken in large pmducbm . windtunnelson large scale models. OTIC
(AD-AZ68689; WL-TR-94-3097) Avail: Issuing Activity (Defense
10 ASTRONAUTICS
AgS-8038P National Aefmautks and Space Administration. langley Reswch Center. Hampton. VA. GUIDANCE AND CONTROL, 1993; ANNUAL ROCKY MOUNTAIN GUIDANCE AND CONTROL CONFERENCE, 16TH, KEYSTONE, CO, FEB. 6-10,1993 ROBERT D. CUW. editor cdorado Univ., Boulder, CO, US and GEORGE BICKLEY. d i i Ball Aerospece Systems G W , Boul- der, CO, US San Diego, CA American Astronautical Society (AdvanmsintheAstronaubcal ' Sciences. Vd. el) (ISSN 0065-
PapenfrWntheSixteem annualAmerican- . s o - andcontrdconferencearep cietyRodry--
sented. The topics covered indude the fobwing: advances in g~,nevigatkn,andcontrol;controlsystemvldeoa;grridance, navigation and contrd embedded flight cartrol systems; recent e~nces;guidanceandcontrolstoryboarddisplays;andappti- cations of modem control. featuring the HubMe Space Tefescope (HST) pelformance enhancement study. For individual titles. see A95-8rnthrOughA!&m436. Hemer
3438) 1993 63Op. (lSBN-O-E7703-365-X HTN-95.AO314) Copyrisht
. .
A95%0390 APPLICATION OF F U a Y LOGIC TO OPTlYlZE PLACEMENT OF AN ACQUISITION, TRACKING, AND POINTING EXPERIMENT JERRY BUKLEY TASC. "e, AL. US In Guidance and controi, 1993;ANual Rocky Mumtain Guidance and Control Corr ference. 16th Keystone. CO, Feb. 6-10, 1993. AS80369 San Oieg0,CA American- . society (Mvances in the Astronautical Sciences, Vd. 81) (ISSN Ooss-3438) 1993 p. 3-12 copyrim
The experiment is comprised of a 1 15.000 cubic meter helium balloon which l i i a 2.900 kg A c q u i i . Tracking and pointing (ATP) experiment package to an attitude of 26 Ian. The phlllips Laboratory High AHitude Batban Experiment (HABE) has been developed as a cost4fecth means of testing satellite ATP techrolooiea inanemrirwwnent dmilartospice. rage of the concept is the flexibility in placemcHlt and timing afforded a balkon over a satellite. This IlexWiityalkWs HABE to c m g a g e i a ~ ~ l a u n c h e d f r a n t h e d o m w t i c ~ without requiring a dedicated or dosely eoordinaml launch time. The placement of HABE is optimized to maximize active track time. A routine was developed to raster scan the mathematical model of
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10 ASTRONAUTICS
a flight corridor while accumulating the intervals of continuous engagement that satisfy a list of ten rules. Although successful, this method is unable to place priorities or make trades based on the relative importance of the rules. The use of fuzzy logic in the form of approximate reasoning to evaluate the rules, while also considering goals, enables key qualitative considerations to be factored into the overall evaluation. This paper describes the appli- cation of fuzzy logic to data analysis and compares the results to conventional Boolean techniques. Author (Hemer)
A9540409 DESCRIBING AN AlTlTUDE D. 1. KOLVE Boeing Defense and Space Group, Seattle, WA, US In Guidance and control, 1993; Annual Rocky Mountain Guidance and Control Conference, 16th, Keystone, CO, Feb. 6-10, 1993. A95- 80389 San Diego, CA American Astronautical Society (Advances inthe Astronautical Sciences, Vd. e l ) (ISSN 0065-3438) 1993 p.
Copyright Describing the orientation of one coordinate system relative to
another is a common requirement in the fields of navigation, guidance and contrd. The intent of this paper is to summarize the fundamental relationships between the most commonly used descriptors of attitude: direction cosine matrices, quaternions, and Euler angles. Most of the relations included here are well known, but described in amore compact form. Other transforms are new, such as a completely general and direct method for determining Euler angles from quaternions without using the direction cosine matrix as an intermediate step, and a simple interpretation and application of quaternion subtraction. Also included are general case least squares solutions to finding direction cosine matrices and quaternions, and the derivations and sololutions of their differential equations. Author (Herner)
A9540427 A NEW GUIDANCE AND FLIGHT CONTROL SYSTEM FOR THE DELTA 2 LAUNCH VEHICLE R. PORDON Allied Signal Aerospace, Teterboro, NJ. US, K. TOMPETRlNl Allied Signal Aerospace, Teterboro, NJ, US, S. WEINSTEIN Allied Signal Aerospace, Teterboro, NJ, US, and H. DHUYVETTER McDonnell Douglas Aerospace, Huntington Beach, CA, US In Guidance and control, 1993; Annual Rocky Mountain Guidance and Control Conference, 16th, Keystone, CO, Feb. 6-10, 1993. A95-80389 San Diego, CA American Astronautical Society (Advances in the Astronautical Sciences, Vd. 81) (ISSN 0065- 3438) 1993 p. 455 Copyright
Because redundancy potentially offers significant improve- ments in the probability for launch success, it has been one of the most sought after capabilities for launch vehicles. Avionic designs offering this capability have, to date, been largely prohibited due to cost, weight and development schedules. The Redundant Inertial Flight Control Assembly (RIFCA) is a system which offers a practical implementation of fault tolerant avionics through redundancy. The RlFCA program is completing the development phase and will lead to the production of flight hardware, which will start flying on the DELTA 2 in late 1994. This paper presents the redundancy concepts used in both the RlFCA and the vehlcle, describes the RlFCA hardware and its Integration with the software to provide a fail-op capability within the framework of a cost effective, weight effective system design. Author (revised by Hemer)
A95-81093 DYNAMICS AND CONTROL OF A TETHERED FLIGHT VEHICLE T. S. NO Auburn Unlv. Auburn, AL, Unlted States and J. E. COCHRAN, JR. Journal of Guidance, Control. and Dynamics (ISSN 0731-5090) vol. 18. no. 1 January-February 1995 p. 66-72 refs
Certain types of the problems of dynamics and control of maneuverable tethered flight vehicles are dealt with. The numeri- cally linearized equations of motion are used in a stability analysis
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(BTN-95-EIX95242670754) Copyright
and to design control laws that may be used in station keeping and maneuvering of the vehicle. For motion in which deviations from the equilibrium states are small in magnitude and the maneuver of the vehicle is confined to a neighboring region, the use of a linear quadratic regulator (LQR) for the station keeping and a linear terminal controller for the maneuver is investigated. For the model and conditions used, it is shown that aerodynamic control may be used successfully for station keeping and maneuvering, and the aerodynamic control yields results comparable to those obtained by using reaction control. Author (El)
A9541 360' National Aeronautics and Space Administration. Langley Research Center, Hampton, VA. LOAD ALLEVIATION MANEUVERS FOR A LAUNCH VEHICLE HANS SEYWALD Analytical Mechanics Associates, Inc., Hampton, VA, US and ROBERT R. BLESS Lockheed Engineering and Sci- ences Co., Hampton, VA, US h Spaceflight mechanics. 1993; AASIAIAA Spaceflight Mechanics Meeting, 3rd, Pasadena, CA, Feb. 22-24,1993, Parts 1 & 2. A9541344 San Diego, CA American Astronautical Society (Advances in the Astronautical Sciences, Vol.
(Contract(s)lGrant(s): NAS1-18935; NAS1-19000) Copyright
This paper addresses the design of a fomard-looking autopilot that is capable of employing a priori knowledge of wind gusts ahead of the flight path to reduce the bending loads experienced by a launch vehicle. The analysis presented in the present paper is only preliminary, employing a very simple vehicle dynamical model and restricting itself to wind gusts of the form of isolated spikes. The main result of the present study is that linear quadratic regulator (LQR) based feedback laws are inappropriate to handle splke-type wind perturbations with large amplitude and narrow base. The best performance is achieved with an interior-point penalty optimal control formulation which can be well approximated by a simple feedback control law. Reduction of the maximum bending loads by nearly 50% is demonstrated. Author (Hemer)
A9541374 IDEAL PROPORTIONAL NAVIGATION PINJAR YUAN Chung Shan Inst. of Science and Technology, Lungtan. Taiwan and JENG-SHING CHERN Chung Shan Inst. of Science and Technology, Lungtan, Taiwan In Spaceflight mechan- ics. 1993; AASIAIAA Spaceflight Mechanics Meeting, 3rd, Pasa- dena, CA, Feb. 22-24,1993, Parts 1 & 2. A95-81344 San Diego, CA American Astronautical Society (Advances in the Astronautical Sciences, Vol. 82, Pts. 1 & 2) (ISSN 0065-3438) 1993 p. 501-512
Proportional navigation has been proved to be a useful guid- ance technique in several surface-to-air and air-to-air homing sys- tems for interception of airborne targets. Besides the familiar pure, true, and generalized proportional navigation guidance laws, a new guidance scheme, named ideal proportional navigation with com- manded acceleration applied in the direction normal to the relative velocity between Interceptor and target, is presented. In this study, the closed-form solutions of Ideal proportional navigation are com- pletely derived for maneuvering and non-maneuvering target and some important characteristics related to the system performance are introduced and investigated. Under this scheme, the capture criterion is related to the effective proportional navigation constant only, no matter what the initial condition and target maneuver are. With some more cost of energy consumption, this new guidance scheme has a larger capture area and is much more effective than ~revious ones. Author (Herner)
N95-256641 National Aerospace Lab., Tokyo (Japan). Aerody- namics Div. AERODYNAMIC CHARACTERISTICS OF THE ORBITAL REENTRY VEHICLE EXPERIMENTAL PROBE FINS IN A SUPERSONIC FLOW MlTSUNORl WATANABE, HIDE0 SEKINE. ATSUSHI TATE, and
82, Pts. 1 & 2) (ISSN 0065-3438) 1993 p. 257-269
Copyrim
CHEMISTRY AND MATERIALS 11
JUNlCHl NODA Apr. 1994 18 p In JAPANESE (ISSN 0389410) (NAL-TR-1232) Avail: CAS1 HC A W F A01
The aerodynamic characteristics of probe fins with a sweep angle of 60 deg, w h i are equipped on the Ofbi i Reentry Experi- ment (OREX) vehicle to measure the sunounding ionized gas temperature and electran number density distributions in the high tempemre communication Mack out regions. have been mea- sured m the supersonic wind tunnel of the National Aerospace Laboratory and compared with those of the fins of 0 deg sweep angles. S i the probes are to be embedded in the boundary layer wherethelocalMachnumberisiessthan2.5overtheOREXswface at a hypersonic Right speed, the aedynmic characteristics in supersonic regionsare needed toesbimate the roiling momentsof finscaused by the e m ofthe installationangles. The liicoeffident slope ofthe probe fins decreases as the Mach number increases. being less than the values for the 0 deg sweep fins. The drag coefficient depends hishtyon the sweepangle ofthe fins in Mach number regions less than 2.5. Author
11 CHEMISTRY AND MATERIALS
Includes chemistry and materials (general); #nnposite materiais; inorganic and physical chemistry; metallic materials; nonmetallic materials; and propellants and fuels.
A95-78467 THEORETICAL AND EXPERIMENTAL STUDIES OF FRETTING-INTnATED FAVGUE FAILURE OF AEROENGINE COMPRESSOR DISCS P. PAPANIKOS Univ of ToronPo, ToronPo, Ont, Canada and S. A. MEGUID Fatigue and hachrre of Engineering Materials & Struc- tures (ISSN 8756-758X) vd. 17, no. 5 May 1994 p. 534550 refs
A finite element anaiysis and fatigue crack growth studies are made of dovetail joints in aemengine compressor discs. Three aspects are exarrdned.thefirstdeats with the finite element stress analysis of the critical geometrical features and intmhce condWns of different dovetail configuratiorrs * , thus enabling an assessment to be made of the critically loaded regions m thedisc. Thesecond deals with the p r e d i i n of the dimdon of potential fatigue cracks, which were allowed to initiate in the finite element model at the regions where fretting damage is most likely to accur, using an imemental crack tracking criterion. The third is concerned with the vedficath of the above modelling techniques with fatigue tests on a uniaxial back-to-back arrangement, w h i i attempts to simulate the stress fields of a rotating disc. Author (El)
N95-24220*# Wtginia W., Charlottesville. VA. Dept of Materi- als Science and Engineering.
STRUCTURES TECHNOLOGY PROGRAM (LA2ST) Progress Report, 1 Jut. - 31 Doc. 1994 EDGAR A. STARKE. JR., RICHARD P. GANGLOFF. CARL T. HERAKOVICH, JOHN R. SCUILY, GARY J. SHIFLET. GLENN E. STONER, and JOHN A. WERT Mar. 1995 209 p
(BTN-94-EIX94421372285) Copyrisht
NASA-UVA MGHT AEROSPACE ALLOY AND
(contred(S)/oMt(S): NAG1-745) (NASA-CR-198041; NAS 126196041; UVA/5282sslMSEWll7) Avail: CAS1 HC AlO/MF A03
fhe NASA-Wa LigMAerospace Aiiqend StNChrresTM- ogy(lAZST)Rogramwasinitiatedin1986andcartinueswithah$h bWotaCtivity. Plqectsam beingctmdmedby~shdents andfacunyadvisMsintheDeparbnentd-Sdenceand Engineering, as weti as in the f3wammt d CMI Enskreerins and Applied Mechania, at the University of Wrgirria Henr. we report on progress achieved between July 1 and December 31.1994. The objective of the WST program is !o conduct interdisciplinary graduate student research on the performance of next generation,
light-weight aerospace alloys, composites and thermal gradient structures in collaboration with NASA-Langley researchers. SpedfiC technical objectives are presented for each research p@&. We generally aim to produce relevant data and basic underrtanding of material mechanical response, envimmentai/corrosion behavior, and microstnrcture; new monolithic and compwite alloys; advanced processing methods; new soli and fluid mechaMcs . anatyses; measurement and modeling advances; and a poor of educated graduate students for aerospace technologies. Author
N95-24678Y Vi in ia Univ. Hospital. Charlottesville. VA. School of Engineering and Applied Science. NASA-UVA LIGHT AEROSPACE ALLOY AND STRUCTURES TECHNOLOGY PROGRAM SUPPLEMENT: ALUMINUM- BASED MATERIALS FOR HIGH SPEED AIRCRAFT Semiannual Report, 1 Jul. - 31 Dec. 1992 E. A. STARKE. JR.. ed. Feb. 1995 383 p
(NASA-CR-4645; NAS 126:4645) Avail: CAS1 HC A17MF A03 This repoft on the NASA-UVa tight aerospace alloy and stnrc-
~ ~ t e c h n o l o g y p r o g ~ ~ . Alumintm%ased MaterWs *High speed Aircratt cove rsthe period from July 1.1992. The
m the HSCf envimnment for periods as bng as 6O.OOO hours (certification for 12O.OOO hwrs)and. atthe same-, meet the cost
indushybasellneSfoarsoniiiflightat Mach2.4. The reseetch CoVBcb
(cOntract(~yOrant(~): NAG1-745; RTW 537-06-20-06)
objective ofthe research is to develop aluminum alloys and alunti- nUnmatr iXcanpogtes * tortheeimamewhichc%neffidenllyperform
and weight requirements for an ecmmcai * i y ~ a i ~ . ~
fwrmeprlnaterwsyStems: (1) l~metalhngy2xxx. 6xXx. and 8xXx aaoys, (2) f%wder metatlurgy wxx alloys, (3) Rapidly solidi- fied, dispersion strengthened AI-Fe-X alloys. and (4) Discontkru- Ous lydmeta ima t r i x - ' .Therearetenmajortasks intheprogramwhichalsoindudeevakrafionandtredeoffstudiesby Boemg and Douglas aircraft lxmpa&s. Author
N95-249091! Nalbnal Aerospace Lab., Tokyo (Japan). Airframe Dv. STUDY ON TENSILE FATIGUE TESTING METHOD OF UNlDlRECTIONAL FtBER-RESIN MATRIX COMPOSITES YOSHIO NOGUCHI Jul. 1994 13 p In JAPANESE (ISSN 0384401 0) (NAL-TR-1241) Avail: CAS1 HC AO-F A01
The aim ofthe versailtes Project on advanced materialsand standards (VAMAS) program is to evalua!e the mechenical proper- ties of ahranced materials. in this study. as part ofthe polvmer compo&s. the fiw phase ofthis round robin test was caw wt to examine the tewion-tension fatigue properties of unidirectional GFRP and CFRP. Fatigue tests were undertaken in a sinusoidai la%- testing made, with a load ratio of 0.1. In the cased CFRP tests, the comparison dcddsetbng . epoxyresinandcuring epoxyresinfiknastheendtabadhesiw,wasmade.ItwasfolKldthat thefatigrestrengthdifferedlargetybetweenthetwotypesofteb adhesive. In another shnly, the effects ofthe endtab
unidirectional CFRP specimen were examined. As for the tab cwrfiguratian, 10 degtapered and untapered endtab spechem were prwided. On the testing frequency, fatigue tests were con- ducted with 2,5 and 10Hz. The difference of fatigue strength under these testing conditions was found to be small in the present study.
Author
N95-260CW LockhedEnvirwnrentalSystemsandT~
PARTS WASHING ALTERNATIVES STUDY: UNITED STATES COAST GUARD. PROJECT SUMMARY AND REPORT BRAD MONTGOMERY Jan. 1995 80 p (contract(~)/Grant(~): EPA-68-Ce0020) (PB95-166146; EPA1600/R-95/006)
of the spedmen and the testing flxxwmy of faii&zzZz
co.. Las V w . MI.
Avail: CAS1 HC Ao51MF A01 The report has been written to assist the United States Coast
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11 CHEMISTRY AND MATERIALS
Guard (USCG) industrial managers in determining the most cost effective and environmentally acceptable parts washing alternatives for their specific applications. An evaluation was conducted on four different cleaners from three different USCG facilities. The following parts cleaners were evaluated: Bio seven, Penatone 724, Safety- Kleen 105, and Brulin 815GD. All four cleaners are effective clean- ers for the specific applications described in this evaluation. The evaluation included the categories of process description; environ- mental, safety and health impacts; cost analysis; and the material and emission reduction opportunities. NTlS
N95-26119'# National Aeronautics and Space Administration. Lewis Research Center, Cleveland, OH. THERMAL BARRIER COATING WORKSHOP Abstracts W. J. BRINDLEY, comp., W. Y. LEE, comp. (Oak Ridge National Lab., TN.), J. G. GOEDJEN, comp., and S. J. DAPKUNAS, comp. (National Inst. of Standards and Technology, Gaithersburg, MD.) Mar. 1995 31 p Workshop held in Westlake, OH, 27-29 Mar. 1995; cosponsored by NASA, DOE, and NIST (Contract(s)/Grant(s): RTOP 505-63-52) (NASA-CP-10170; E-9509 NAS 1.55:10170) Avail: CAS1 HC A03/ MF A01
This document contains the agenda and presentation abstracts for the Thermal Barrier Coating Workshop, sponsored by NASA, DOE, and NIST. The workshop covered thermal barrier coating (TBC) issues related to applications, processing, properties, and modeling. The intent of the workshop was to highlight the state of knowledge on TBC's and to identify critical gaps in knowledge that may hinder TBC use in advanced applications. The workshop goals were achieved through presentations by 22 speakers representing industry, academia, and government as well as through extensive discussion periods. For individual titles, see N95-26120 through N95-26140.
N95-26120'# Pratt and Whitney Aircraft, West Palm Beach, FL.. A DESIGN PERSPECTIVE ON THERMAL BARRIER COATINGS Abstract Only F. 0. SOECHTING In NASA. Lewis Research Center, Thermal Barrier Coating Workshop p 3 Avail: CAS1 HC AOl/MF A01
This technical paper addresses the challenges for maximizing the benefit of thermal barrier coatings for turbine engine applica- tions. The perspective is from a customer's viewpoint, a turbine airfoil designer, who is continuously challenged to increase the turbine inlet temperature capability for new products while maintain- ing cooling flow levels or even reducing them. This is a fundamental requirement to achieve increased engine thrust levels. Developing advanced material systems for the turbine flowpath airfoils is one approach to solve this challenge, for example, high temperature nickel based superalloys or thermal barrier coatings to insulate the metal airfoil from the hot flowpath environment. The second ap- proach is to increase the cooling performance of the turbine airfoil, which enables increased flowpath temperatures and reduced cool- ing flow levels. Thermal barrier coatings have been employed in jet engine applications for almost 30 years. The initial application was on augmenter lines to provide thermal protection during afterburner operation. However, the production use of thermal barrier coating in the turbine section has Only occurred in the past 15 years. The application was limited to stationary parts, and only recentiy incor- porated on the rotating turbine blades. This lack of endorsement of thermal barrier coatings resulted from the poor initial durability of these coatings in high heat lux environments. Significant improve- ments have been made to enhance spallation resistance and erosion resistance which has resulted in increased reliability of these coatings in turbine applications. Author
N95-26121 'I National Aeronautics and Space Administration. Lewis Research Center, Cleveland, OH. THERMAL BARRIER COATINGS FOR AIRCRAFT ENGINES: HISTORY AND DIRECTIONS Abstract Only R. A. MILLER In its Thermal Barrier Coating Workshop p 5 Mar.
Mar. 1995
1995 Avail: CAS1 HC AOl/MF A01
Thin thermal barrier coatings for protecting aircraft turbine section airfoils are examined. The discussion focuses On those advances that led first to their use for component life extension and more recently as an integral part of airfoil design. It is noted that development has been driven by laboratory rig and furnace testing corroborated by engine testing and engine field experience. The technology has also been supported by performance modeling to demonstrate benefits and life modeling for mission analysis. Factors which have led to the selection of the current state-of-the-art plasma sprayed and physical vapor deposited zirconia-yttria/MCrAIY TBC's is emphasized in addition to observations fundamentally related to their behavior. Current directions in research into thermal barrier coatings and recent progress at NASA is also noted. Author
N95-26122'1 Department of Energy, Washington, DC. office of Industrial Technologies. THERMAL BARRIER COATINGS ISSUES IN ADVANCED LAND-BASED GAS TURBINES Abstract Only W. P. PARKS, W. Y. LEE (Oak Ridge National Lab., TN.), and I. G. WRIGHT (Oak Ridge National Lab., TN.) InNASA. Lewis Research Center, Thermal Barrier Coating Workshop p 7 Mar. 1995 Avail: CAS1 HC AOlmAF A01
The Department of Energy's Advanced Turbine System (ATS) program is aimed at forecasting the development of a new genera- tion of land-based gas turbine systems with overall efficiencies significantly beyond those of current State-of-the-art machines, as well as greatly increased times between inspection and refurbish- ment, improved environmental impact, and decreased cost. The proposed duty cycle of ATS turbines will require the use of different criteria in the design of the materials for the critical hot gas path components. In particular, thermal barrier coatings will be an essen- tial feature of the hot gas path components in these machines. While such coatings are routinely used in high-performance aircraft en- gines and are becoming established in land-based turbines, the requirements of the ATS turbine application are sufficiently different that significant improvements in thermal barrier coating technology will be necessary. In particular, it appears that thermal barrier coatings will have to function on all airfoil sections of the first stage vanes and blades to provide the significant temperature reduction required. In contrast, such coatings applied to the blades and vances of advanced aircraft engines are intended primarily to reduce air cooling requirements and extend component lifetime; failure of those coatings can be tolerated without jeopardizing mechanical or conosion performance. A major difference is that in ATS turbines these components will be totally reliant on thermal barrier coatings which will, therefore, need to be highly reliable even over the leading edges of first stage blades. Obviously, the ATS program provides a very challenging opportunity for TBC's, and involves some signifi- cant opportunities to extend this technology. Author
N95-26123.1 Gaithersburg, MD. MEASUREMENT METHODS AND STANDARDS FOR PROCESSING AND APPLICATION OF THERMAL BARRIER COATINGS Abstract Only S. J. DAPKUNAS In NASA. Lewis Research Center, Thermal Barrier Coating Workshop p 9 Mar. 1995 Avail: CAS1 HC AOllMF A01
Applition of thermal barrier coatings deposited by thermal spray, physical vapor and possibly other methods is expected to be extended from aircraft gas turbines to Industrial and utility gas tutbines as well as diesel engines. This increased usage implies the participation of greater numbers of processors and users, making the availability of standards for process control and property mea- surement more important. Available standards for Processing and evaluation of thermal barrier coatings are identified as well as those needed in the future but currently unavailable. Author
National Inst. of Standards and Technology,
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CHEMISTRY AND MATERIALS 11
N%-26124'# Department of Energy, Washington, DC. Office of Transportation Techndogies. THERMAL BARRIER COATINGS APPLICATION IN DIESEL ENGINES Ab8tnct Only J. W. FAIRBANKS Barrier Coating Workshop p 11 Avail: CAS1 HC AOllMF A01
Commercial use ofthennal barrier coatings in *sed engines began in the mid 70's by Dr,. lngard K v e m s at the Central Institute for Industrial Research in Oslo, Norway. Dr. K v e m e s attributed attack ondiesel engine valvesand piston crormsencounteredin marine diesel engines in Nwwegian Strips as hotconoaion ettrlb- utedto areduced qoality of resiihrafuefuel. His solution waslo coat these componentsto mduw metal temperature below the thresh- okl of aggressive hot-conosion and also to provide protection. The Deparbnent of Energy has supported thermal barrier Coating development for diesel engine applications. In the Clean Diesel - 50 Percent Efficient (CD-50) engine for the year 2OO0, thermal barrier coatings will be used on piston crown^ and possibly other components. The primary purpose of the thermal barrier coatings will be to reduce thermal fatigue as the engine peak cylinder pressure will nearly be doubled. As the coatings re" in higher available energy m the exhaust gas, efficiency gains am achieved through use of this energy by turbochargers, tu-i or !hermoelectric generators. Author
NS-261W'# Pmtt and Aircraft, East Hartford, CT. THERMAL BARRIER COATING EXPERIENCE IN THE GAS TURBINE ENGINE Abstmct Only s. BOSE end J. DEWI-MARCIN Center. Thermal Barrier cogting Workshop p 13 Avail: CAS1 HC AOllMF A01
Them Barrier Coahps (TBC). provide thermal insulation and oxidation resistance in adronmentansisting of hat com bustion gases. TBC's consist of a two tayer system. The outer ceramic layer provides good thermal insullmon . ~ t o t h e b w thermal conductivity ofthe cleramic coatings used,whMthe hner metallic bond coat layer provides needed oxidatkm rebistance tothe underlying superalloy. Ratt 1 whitney has over a decade of expe- rience with several generations of TBC systems on hnbine airfoils. This paper will focus on the latest TBC field experience along with a proposed durability model. Author
N95-26126'1 General Electric Co.. Cincinnati, OH. Aircraft Engines. PVD TBC EXPERIENCE ON GE AIRCRAFT ENGINES Abstract Only A. BARTZ, A. MARIOCCHI. and D. J. WORTMAN InNASA. Lewis Research Center, Thermal Banier Coating Workshop p 15 Mar. 1995 Avail: CAS1 HC AOl/MF A01
In NASA. Lewis Research Center, Thermal Mar. 1995
h NASA. L M Research Mar. 1995
Thehigherperfwmana,~ofrodemgesllrrbine~ present sQMcant chalhgas in the reliabiiityof materiats m the turbine. The hmased enginetsmperaturesreqcliredtoaehievethe higher pe- levels reduce the strength ofthe matews used in the turbii secbions of the engine. Various of Thermal BanierCoabings(TBC's)havebeenusedformanyyearstoincrease the reliability of gas turbine engine components. Recent experience
material has (kmmmed success m extending the serwce Me of turbine blades and nozzles. Engine test results of turbine canpo- nenOr with a 125 micrwneter (0.00s in) PVDTBC have dmomtmd component operating tempereanes of !i6-63 C (100-150 F) kwer than~axnponenFB.Enginetestinghasalsonwededthe TBC is -Me to high angle partide impact damage. send ~andotherenginedebrisknpadtheTBCsuIfaceatlhe leading edge of airfoils and fracture gre PVD cokmns. As the knpacting continuestheTBCerodesawayinbcaJamfm.~ ofthe eroded areas has shown aslight increase in temperature over a MY coated area, however, a significant temperature reduction
M i z e d O W airfoil withwtqT6c. Author
with the physical vapor Deposition (WD) process W w p m l i c
N95-26128Y Solar Tufbines. Inc. San Diego. CA. PERSPECTIVE ON THERMAL BARRIER COATINGS FOR INDUSTRIAL GAS TURBINE APPLICATIONS Ab8W.a Only Z. Z. MUTASIM. L. L. HSU, and W. D. BRENTNALL In NASA. Lewis Research Center, Thermal Barrier Coating Workshop p 19 Mar. 1 995 Avail: CAS1 HC AOlMF A01
Thermal Banier coatings (TBC's) have been used in high thrust aimaft engines formany years. end haveprrnredtobeveqeffective in atlowing higherturbine inlettmperatures. TBC life requirementsfor a i m a f t e n g i n e s a m t y p i c a H y ~ ~ t h o s e r e q u i r e d m ~ g a s tuIbms. The use of TBc'sfor indusaial gas hnbinescan inaease if durabilityandbngerservice*cenbe~demorrstrated. ThispaperwiudesaibearrrentandMweappLcabons . ofTBcsin industrialgasturbineengines.EattytestktgarKiap@iidlBC's will atso be reviewed. This paper toclses on the key factom that am expectedtoinfluena,utiliofTBC'sinadvancedindustrialgas hnbine engines. It is anwpawd that relw, durable and high effective coating sy5tms will be producedthatwill umnately knprove engineefficiencyandpertonnanccr. Author
N95-26l31Y Ratt and whitney Aim, West pakn Beach, FL. JET ENGINE APPUCATlONS FOR MATERIALS WITH NANOMETER-SCALE DIMENSlONS Abstract Only J. W. APPLEBY, JR. h, NASA. Lewis Reswrch Center. Thermal Barrier Coating Workshop p 27 Mar. 1995 Avail: CAS1 HC AOl/MF A01
The perfwmance ofadvanmd rnititaryandcomnereial gas bnbineengines is often liedtoadvences in materials . -- H@ pmfomms gas turbine engines b e i i developed require majormaterialadvancesinstmngih, aoughness. reduced- andimproved~ospabi t i ty .Theemergingtechndooyof
meterials has 81Knmous potmw forprodudng materialswithsignificentimpmwnentsintheseproperties.Extraor- dinary properties demawtreted in the labMatory indude material strengthswPro=hing- . ceramics st hat demonstrate ductility and targhness, and material wilh uttrahigh hardness. Nanostnrcturedmaterialsandcogtingahavethepotentialformeet- ing future gas turbine engine requirements for knproved perfor- mance, reducedweigtltand lowerfuel colxm@m . Author
N95-26133't Oak R i National Lab., TN. THERMAL CONDUCTIVITY OF ZIRCONIA THERMAL BARRIER COATINGS A m c l Only R. 8. DINWIDDIE, S. C. BEECHER, 8. A. NAGAW (General Electric Co., C i , OH.), and C. S. MOORE (General Uecbic Co.. Cincinnati. OH.) In NASA. Lewis Research Center, Thermal Barrier Coating Workshop p 31 Avail: CAS1 HC AOlMF A01
Thermal barriercoatings (TBC's)applitothehotga~coiqm-
-reliability.undenrtandingthe- whidlconbol thethermaltransportbehavioroftheTBC'sisdprbnaryimportance.
(WD) and @asma spreykrg (PS) are the m w w - tworostawnmonlyusedcoating~.Thesetechrriques produce coatings with unique microstrucht reswhichcontrdtheir performance and stability. The PS coatings were eppli with either standard power or hdlaw sphere partides. The holkw sphere parWes yielded a kwerdensityand m e r thermal CondClctMty COating.Thethe~conductivityofbathfUilyandpartiallystabiiied zirconia. before and after thermal aging, will be axnpared. The thermal COndllcBhnty . d t h e ~ ~ i n x e e s e u p o l l beingeposedtohightenperatufes.Theseinereesesen,~ to- changes within h axaings. Shtedng ofthe as fabricated plasma sprayed Lametler StNChrre is absenred by scam ~ e l e c t r a \ ~ o f c o r d i n g s ~ h e a t ~ a i temperahnes greater than 1100 C. During this sinterkrg p~oawsthe planar porosity between lamella is converted to a series of small spherical pores. The change in pore morphology is the primary reason for the observed increase in thermal amk&wty . * .This increese in thenna lconduct iv i tycanbe~us inga~
Mar. 1995
MHlts of turbine emgines lead to enhanced "I effidetlcy and
. .
. .
345
11 CHEMISTRY AND MATERIALS
which depends on both the temperature and time of exposure. Although the PVD coatings are less susceptible to thermal aging effects, preliminary results suggest that they have a higher thermal conductivity than PS coatings, both before and after thermal aging. The increases in thermal conductivity due to thermal aging for partially stabilized plasma sprayed zirconia have been found to be less than for fully stabilized plasma sprayed zirconia coatings. The high temperature thermal diffusivity data indicates that if these coatings reach a temperature above 11 00 C during operation, they will begin to lose their effectiveness as athermal barrier. Author
N95-26138'# Purdue Univ., West Lafayette, IN. THERMAL FRACTURE MECHANISMS IN CERAMIC THERMAL BARRIER COATINGS Abstract Only K. KOKINI, 8. D. CHOULES, and Y. R. TAKEUCHI InNASA. Lewis Research Center, Thermal Barrier Coating Workshop p 41 Mar. 1995 Avail: CAS1 HC AOlIMF A01
Ceramic thermal barrier coatings represent an attractive method of increasing the high temperature limits for systems such as diesel engines, gas turbines and aircraft engines. However, the dissimilari- ties between ceramics and metal, as well as the severe temperature gradients applied in such systems, cause thermal stresses which can lead to cracking and ultimately spalling of the coating. This paper reviews the research which considers initiation of surface cracks, interfacial edge cracks and the effect of a transient thermal load on interface cracks. The results of controlled experiments together with analybcal models are presented. The implications of these findings to the differences between diesel engines and gas turbines are discussed. The importance of such work for determining the proper design criteria for thermal barrier coatings is underlined. Author
N95-26140'# Pratt and Whitney Aircraft, East Hartford, CT. THERMAL BARRIER COATING LIFE MODELING IN AIRCRAFT GAS TURBINE ENGINES Abstract Only D. M. NISSLEY In NASA. Lewis Research Center, Thermal Barrier Coating Workshop p 45 Avail: CAS1 HC AOlIMF A01
Analybcal models useful for predicting ceramic thermal barrier coating (TBC) spalling life in aircraft gas turbine engines are pre- sented. Electron beam-physical vapor deposited (EB-PVD) and plasma sprayed TBC systems are discussed. TBC spalling was attributed to a combination of mechanisms such as metal oxidation at the ceramic-metal interface, ceramic-metal interface stress con- centrations at free surfaces due to dissimilar materials, ceramic- metal interface stresses caused by local radius of curvature and interface roughness, material properties and mechanical behavior, transient temperature gradients across the ceramic layer and com- ponent design features. TBC spalling life analytical models were developed based on observations of TBC failure modes and plau- sible failure theories. TBC failure was assumed to occur when the imposed stresses exceeded the material strength (at or near the ceramic-metal interface). TBC failure knowledge gaps caused by lack of experimental evidence and analytical understanding are noted. The analytical models are considered initial engineering approaches that capture observed TBC failure trends. Author
Mar. 1995
N95-26251 ' I t Langley Research Center, Hampton, VA.
STIFFENED PANEL CONCEPT FOR AIRCRAFT PRIMARY STRUCTURAL APPLICATIONS DAMODAR R. AMBUR JM. 1995 21 p Presented at the Third Advanced Composites Technology Conference, Jun. 1992 (Contract(s)/Grant(s): RTOP 505-63-50-08) (NASA-TM-109175; NAS 1.15:109175) Avail: CAS1 HC AOWF A0 1
A structurally efficient hat-stiffened panel concept that utilizes a structural foam as stiffener core has been designed for aircraft
346
National Aeronautics and Space Administration.
DESIGN AND EVALUATION OF A FOAM-FILLED HAT-
primary structural applications. This stiffener concept utilizes a manufacturing process that can be adapted readily to grid-stiffened structural configurations which possess inherent damage tolerance characteristics due to their multiplicity of load paths. The foam-filled hat-stiffener concept in a prismatically stiffened panel configuration is more efficient than most other stiffened panel configurations in a load range that is typical for both fuselage and wing structures. The prismatically stiffened panel concept investigated here has been designed using AS4/3502 preimpregnated tape and Rohacell foam core and evaluated for its buckling and postbuckling behavior with and without low-speed impact damage. The results from single- stiffener and multi-stiffener specimens suggest that this structural concept responds to loading as anticipated and has good damage tolerance characteristics. Author
12 ENGINEERING
Includes engineering (general); communications; electronics and electrical engineering: fluid mechanics and heat transfer; instrumen- tation and photography; lasers and masers; mechanical engineer- ing; quality assurance and reliability; and structural mechanics.
AS77379 MODAL CHARACTERISTICS OF ROTORS USING A CONICAL SHAFT FINITE ELEMENT M. A. MOHlUDDlN King Fahd Univ of Petroleum 8 Minerals, Dhahran, Saudi Arabia and Y. A. KHULIEF Computer Methods in Applied Mechanics and Engineering (ISSN 0045-7825) vol. 11 5, no. 1-2 May 1994 p. 125-144 refs
A finite element formulation for a rotor-bearing system is presented. The equations of coupled bending and torsional motion of the rotating shaft are derived using the Lagrangian approach. A conical beam finite element for vibration analysis of rotating shafts including shear deformations and rotary Inertia Is derived. The finite beam element has ten degrees of freedom and accounts for linear tapering. Explicit expressions for the element mass, stiffness, and gyroscopic matrices are derived using consistent mass formulation. The finite element discretization is employed, the generalized eigen- value problem is defined, and numerical solutions are obtained for a wide range of whirl ratios. spin speeds, and taper ratios. Compari- sons are made wherever possible with exact solutions, and with other numerical results available in the literature. Extended numeri- cal results are produced for a wider range of parameters for which solutions were not previously attempted. Author (El)
(BTN-94-EIX94401359745) Copyright
A%-77921' Langley Research Center, Hampton, VA. VISCOPLASTIC RESPONSE OF STRUCTURES FOR INTENSE LOCAL HEATING EARL A. THORNTON University of Virginia, Charlottesville, VA, US and J. D. KOLENSKI University of Virginia, Charlottesvilie, VA, US Journal of Aerospace Engineering (ISSN 0893-1321) vol. 7, no. 1 January 1994 p. 50-71 Research sponsored by NASA Langley
A thermoviscoplastic finite element method employing the Bodner-Partom constiMve model is used to investigate the re- sponse of simplified thermal-structural models to Intense local heating. The computational method formulates the problem In rate and advances the solution in time by numerical Integration. me thermoviscoplastic response of simplified structures with prescribed temperatures is investigated. With rapid rises of temperature, the nickel alloy structures display initially higher yield stresses due to strain rate effects. As temperatures approach elevated values, yield stress and stiffness degrade rapidly and pronounced plastic defor- mation occurs. Author (Hemer)
National Aeronautics and Space Administration.
(HTN-95-41540) Copyright
ENGINEERING 12
AS78494 IMPINGEMENT COOUNG OF AN ISOTHERMALLY HEATED SURFACE WITH A CONFINED SLOT J R Y. J. CHOU Natl Tsing Hua Univ. Hsinchu, Taiwan, Province of China and Y. H. HUNG Journal of Heat Transfer, Transactions A W E (ISSN 0022-1481) vol. 116. no. 2 May 1994 p. 479-482 refs (BTN-9eEIX94421348950) cowr$m
Theobjectivesofthiistudyindude: (1)toexplomtheefieck of jet Reynolds number; (2) ratio of separation distance to jet width and jet exit-velocity profile on sbgmtbn and local heat translec characteristics inamfinedslot-jet k n p i ~ p r 0 b l e m s ; a n d (3)to Propose~w~conelatKwrs ' f a r p r e d i c t i n s ~ a n d ~ h e a t transfer characteristics. El
AQS-76576 DYNAMIC IMAGING AND RCS MEASUREMENTS OF AIRCRAFT AWL JAlN Hughes Aircraft Co, Lw AypkS, CA united and INDU PATEL IEEE Transacbons . onAerospaceanduectronic Systems ( I S N 0016-9251) vd. 31. no. 1 January 1995 P. 211- 226refs (BTN-SS-EIXS5202637S82)
Resultson radar aDgs scion (Res) - and in- verse syniheb;capertum radarinregesdaMooney231 ah&t,using a gmmd-to-air meesurement system (GTAMS) and a KG135 air- plane using an airborne redar am presmed. The Mooney231 flew in acontrolledpathinbothciadwse . and- . -,and ~ w i t h t h e g e a r d a m , B a p s i n t h e ~ p o s i t i o n a n d w i u l the speedbrekes rp. Thedateindioetesthat Rcspaltemmeawre- menSfranbQit l~edrdrbOmeradaroff fyingairaaftare
oMainedarevakraMefor~diagnosbcs. - (El) useful and that theinVen#, syeetic.apeftly radar (ISAR) images
A S = STRUCTURE OF A DOUBLE-FIN TURBULENT INTERACTION AT HIGH SPEED DATTA GAITONDE Wright Lab, Wright-Patterson Air Force Ease, OH, United states. J. S. SHANG. and MIGUEL VlSBAL AlAA ~wmaijiSSNiMO1-1452) vd.33,no.2 Febnrary1995p. 193-200 refs
This study eranrinesthe interection of a Mach 83 tuftmdent boundary layer with intersecbng oblique shock waves generated by 15-deg sharp fins mowed crynnneprically on aflat plate. The MI three-dimensional mass-avemged compressible Navier-Stokes equations are solved wilh a h$h-resokrtion knplicit finite-vdume scheme. Tu~txdence dogure is achieved with veriatiars ofthe Baldwin-Lomax algebraic model. Excellent egreement with experi- mental data is observed kr plate surface prescwre. However, accurate heat transferratmare obtainedarlymarthe plene of symmetly.somequanm&e d8taikaredapendmonttmmrrmer inwhichthebabulencemodelisimplemented .wTwnulislimitabion, t h e o V e r a l l ~ m e S n ~ ~ f B r w n a l n s ~ a n d m e s h independentmdcompareswetl withaveilawe field wnveys.The incaninght~~Iayerseparrrtesabngtheatbkespan*rise widthanddoesnotreatEechinthedOmainofcc!mpmm ' .Beneath the separated boundarylayer are a vatex interaction wilh anoff- surtacestagnaiion point,acentedineiaq@dml . vol&zqendan entrainment fiow ociginaaing fran the essenmy hnrisdd stream nearthefinleedingedge. - (El)
A9560044 EXPERIMENTAL INVESTlGAnON OF THE FLOW AROUND A CIRCULAR CYLINDER: INFLUENCE OF ASPECT RATIO C. NORBERG Chahnem LMVdTedmobgy. ooabborg. Sweden JoumalofflUMMecheMcs ' (IsSNOW2-1120) vd.258 hUary10 1994 p.287-316 (BTN-9dEIX9501IUI 120)
Theinvesbigationisconcgntratedontwoimportantquantities - the Strouhal nunber and the meenbasesucbjoncaeffident, both
(BTN-95-EIXs52226SO~) CopyrisM
measured at the mid-span position. Reynolds numbers from about 50 to 4 x 1 O(exp 4) were investigated. Different aspect ratios, at knu blockage ratios, were achieved by varying the distance betmren circular end plates (end plate diameter ratios between 10 and 30). It was not possible. by using these end plates in uniform Row and at very large aspect ratios, to produce parallel shedding all owr the laminar shedding regime. However, parallel shedding at around mid- span was obsewedthroughoutthiis regime in cases when there was aslight but symmePricaI increase in the free-streamvelocQtarvards both ends ofthe c y l i i . At higher Re. the resultsat different aspect ratiwwere compared withthoseofa'puasCinfinite c y l i i andlhe requiredaspectratiotoreachconditionsindependentofthisparam- eter, within the expwimmW uncertainbies. are given. For instance, aspect ratios a~ large BS UD=60-70 W B T ~ needed inthe r a n ~ e % appmxhnately = 4 x lO(exp 3)-10(exp 4). With the smallest relative end plate diameter and for aspect ratios smaller- 7, a bidtaMe now witchkg between regular vortex shedding and 'irregular Raw' W a S f o r o n d l i h y n O k l S - ~ h t h e - regime (Re appmximately = 2 x lO(exp 3)). (El)
A95-111012 FLOW DUE TO AN OSCILUTING SPHERE AND AN EXPRESSION FOR UNSTEADY DRAG ON THE SPHERE AT FINITE REYNOLDS NUMBER RENWEl ME1 LhrivofFkrid& Gainesville, FL, united States Journal
133-174 refs of fluid Mecharvcs . (ISSN 0022-1120) vd. 270 July 10 lSSa p.
(BTN-96ElX95011441142) Urste&yliorrdueloanosci%rtingspherswithavelocityU(sllb
Reynolds number. Themethods d a r e : (1) Fourier mode expak
0 ) COS anegar. in wtrich u ( u 0) and omega arethe e m p l i i and frequencyoftheosdllation end r is time. is in- a t w e
sion in the frequency domain; (2) atime-dependent finitedifference teclmiiinthetimedomain;and(3)amatetredasymptahc . expan- sion for high-mncy oscillation. The flow fields of the steady streaming carponent, the second andlhird harmonic ampomnb areobtainedwiththefundamenta~TheThedependenoeof the unsteady drag on omega is examined at small and finite Reynolds nunbers. For large Stokes number, epsilon = (omega a(exp 2y2nu)(exp la) rery muh greater than 1, in which a is the radiusofthesphereandnu isthekinemmc . viscasity,themmerical re- far the unstedy drag agrees well with the high-frequeq asymptoricbdution; and the stokes sdution is valafwfinite Re at epsilon very Mch greaterthan 1. For small Stmuhal nunber, Stt OmeQB alll(wb 0) very much less then 1, the imasinatycompanent ofthe msteadydrag (scaled by6 pi U(sub 0) mo(subf) nu4 in which Wsub f) is the fluid density) behaves as D(s& ml) approx. (h(sub 0) St log St- h(sub 1) St). m = 1.3.5 ..._.This is indirect comastto an earlier resultobtskred for an mstedy flow over a &ationery spherewilhasmaJl&itude&lationinthefresstreamvebdty (hereinafter referred to as the SA-) in which D(sub 11) appmx. - h ( d 1)St . krffawoveraspherewithafrmdmam vebcity ~ ( w b 0)(1- atpha(sub 1) + alpha(sub 1) cos anegar) at Re = U(wb 0) 2amu=O2and Stverymuchlegsthan 1 h(svb 0) forthe first mode varies fmm 0 (at alptra(sub 1) = 0) to ammd 0.5 (at a@ha(sub 1) = 1) and that the SA case is a degenerated case in which the logarithmic dependence ofthe drag in St is qpressd by t h e s t r o n g m e a n u r H o r m f . m ~ r e s u t t s f o r M ~ dragareusedtoexamineanappmximateparticjedynemicequation proposed for spherical particles with f ini i Reyrolds number. The equationindudesaquasCateady drag, an addebmassfme. and a modffied histay force. The approximate expmsion for the hislory force ill the tkne domain cornpareg very well With the nmericai resultsofthe SACase fafanfrequencies; itconparestavorablyfor MPocaseformoderateandhighhequenacw . ;it- sljghUythehisOoryfwceforfhePOcaseatkwfrequency.Forasolid sphere setltii in a stagnant liquid wilh zero initial vekcity. the v e b d t y ~ i s ~ usingtheproposedpallidedynamic equalkm. The results compare very well with experknental dataof Moomran over a large range of Reynolds numbers. The present particle dynamic equation at finite R e performsamistedybetter
347
12 ENGINEERING
than that proposed by Odar 8 Hamilton both qualitatively and quantitatively for three different types of spatially uniform unsteady flows. Author (El)
A9541027 FLOW STRUCTURE IN THE LEE OF AN INCLINED 6:l PROLATE SPHEROID T. C. FU CDMSWC, Bethesda, MD, United States, A. SHEKARRIZ, J. KATZ, andl. T. HUANG Journal of Fluid Mechanics (ISSN 0022- 1120) vol. 269 June 25 1994 p. 79-106 refs
The paper presents a study on the flow structure in the lee of an inclined 6:l prolate spheroid with the use of particle displacement velocimetry. The aim is to determine the effects of boundary layer tripping, incidence angle, and Reynolds number on the flow struc- ture. The vorticity distributions are also used for computing the lateral forces and rolling moments that occur when the flow is symmetric. Results show an agreement between the computed values and those by direct measurements. El
A 9 5 4 056 ON THE ROLE OF THE OUTER REGION IN THE
ROY Y. MYOSE Wichita State Univ, Wichita, KS, United States and RON F. BLACKWELDER Journal of Fluid Mechanics (ISSN 0022- 1120) vol. 259 January 25 1994 p. 345-373
The dynamics and interaction of turbulent-boundary-layer eddy structures was experimentally emulated. Counter-rotating streamwise vortices and low-speed streaks emulating turbulent-boundary-layer wall eddies were generated by a Gortler instability mechanism. Large-scale motions associated with the outer region of turbulent boundary layer were emulated with -omega(z) spanwise vortical eddies shed by a periodic non-sinusoidal oscillation of an airfoil. The scales of the resulting eddy structures were comparable to a moderate-Reynolds-num~rturbulent boundary layer. Results show that the emulated wall-eddy breakdown was triggered by streamwise acceleration associated with the outer region of turbulent boundary layer. This breakdown involved violent mixing between low-speed fluid from the wall eddy and accelerated fluid associated with the outer structure. Although wall eddies can break down autono- mously, the presence of and interaction with outer-region smega(z) eddies hastened their breakdown. Increasing the smega(z) eddy strength resulted in further hastening of the breakdown, Conversely, +omega@) eddies were found to delay wall-eddy breakdown locally, with further delays resulting from stronger +omega(z) eddies. This suggests that the outer region of turbulent boundary layers plays a role in the bursting process. Author (El)
N95-24203 Defence Science and Technology Organisation, Melbourne (Australia). Airframes and Engines Div. A PORTABLE TRANSMISSION VIBRATION ANALYSIS SYSTEM FOR THE S-7OA-9 BLACK HAWK HELICOPTER D. M. BLUNT, B. REBBECHI, B. D. FORRESTER, and K. W. VAUGHAN Sep. 1994 45 p Original contains color Illustrations (DSTO-TR-0072; AR-008-938) Copyright Avail: Issuing Activity (DSTO Aeronautical and Maritime Research Lab., GPO Box 4331, Melbourne, Victoria 3001, Australia)
The prototype portable transmission vibration analysis system developed by Aeronautical and Maritime Research Laboratory (AMRL) for the Black Hawk helicopter is described in detail, includ- ing the results of flight trials conducted at RAAF Base Edinburgh during July 1993. The results of these trials have proved the concept of the system and laid the toUndationS for the future development of smaller and lighter systems. Author
N95-24211W Wichita State Univ., Wichita, KS. Nationel Inst. for Aviation Research. ANALYSIS OF WARPING EFFECTS ON THE STATIC AND DYNAMIC RESPONSE OF A SEAT-TYPE STRUCTURE Final Report
348
(BTN-94-EIX95011441127) Copyright
TURBULENT-BOUNDARY-LAYER BURSTING PROCESS
(BTN-94EIX95011441078) Copyright
STEVEN J. HOOPER and MANOJ RAHEMATPURA May 1994 97 P (NIAR-94-12) Avail: CAS1 HC A05/MF A02
An experimental investigation was conducted to evaluate the significance of warping deformations in the dynamic response Of a seat frame type structure subjected to impact loading. The test article design featured thin-walled open-section beams and was loaded inertially by a number of rigid weights which were attached to the ‘seat frame’ members. Strain gage data acquired during these tests were analyzed to whether these data are better represented by Vlasov beam theory or Euler-Bernoulli beam theory. Static tests Of the test article were conducted to validate the data reduction techniques employed in the analysis of the dynamic data.
Derived from text
N95-24396.W Langley Research Center, Hampton. VA. DSMCCALCULATIONSFORTO-DEGBLUNTEDCONEAT 3.2 K W IN NITROGEN J. N. MOSS, J. M. PRICE. and V. K. DOGRA (Vigyan Research Associates, Inc., Hampton, VA.) Jan. 1995 54 p (Contract(s)/Grant(s): RTOP 242-80-01 -01) (NASA-TM-109181; NAS 1.15:109181) Avail: CAS1 HC A04NF A01
Numerical results obtained with the direct simulation Monte Carlo (DSMC) method are presented for Mach 15.6 nitrogen flow about a 7O-deg spherically blunted cone at zero incidence. This flow condition is one of several generated in the Large Energy National Shock (LENS) tunnel during tests of a 15.24 cm diameter model with an afterbody sting. The freestream Knudsen number, based on model diameter, is 0.0023. The focus of the DSMC calculations is to characterize the near wake flow under conditions where rarefaction effects may influence afterbody aerothermal loads. This report provides information concerning computational details along with flowfield and surface quantities. Calculations show that the flow enveloping the test model is in thermal nonequilibrium and a sizable vortex develops in the near wake. Along the model baseplane the heating rates are about 0.6 percent of the forebody stagnation value while the maximum heating along the sting is about 4.2 percent of the forebody stagnation value. Comparison of a Navier-Stokes solution with the present calculations show good agreement for surface heating, pressure, and skin friction results. Author
National Aeronautics and Space Administration.
NQ524412Y California Univ., Los Angeles, CA. Dept. of Me- chanical Aerospace and Nuclear Engineering. EFFECT OF DENSITY GRADIENTS IN CONFINED SUPERSONIC SHEAR LAYERS, PART 1 OSHIN PEROOMIAN and R. E. KELLY 7 Nov. 1994 83 p (Contract(s)/Grant(s): NCC2-374) (NASA-CR-198029; NAS 1.26:198029) Avail: CAS1 HC A05/MF A01
The effect of denslty gradients on the supersonic wall modes (acoustic modes) of a 2-D confined compressible shear layer were investigated using linear analysis. Due to the inadequacies of the hyperbolic tangent profile, the boundary layer basic profiles were used. First a test case was taken with the same parameters as in Tam and Hu’s analysis with convective Mach number M(sub c) = 1 .836 and density ratio of 1.398. Three generalized inflection points were found giving rise to three modes. The first two show similar Properties to the Class A and B modes, and the third Is an ‘inner made’ which will be called a Class C mode. As the density ratio is increased, the smallest of the three neutral phase speeds tends towards the speed of the lower velocity stream, and the other two eventually coalesce and then disappear. These two effects lead to a linear resonance between the Class B modes which increases the Moff frequency and growth rate of the lowest mode. In fact, growth rates of 2 4 times the test case were found as the density ratio was increased to 7. A similar trend is observed for the Class A modes when the density ratio is decreased from the test case, but the BIOwth rate is not changed by much frOm the test case. Author
ENGINEERING 12
N%-24413'1 California Univ.. Los Angeles, CA. Dept. of Me- chanical Aerospace and Nuclear Engineering. EFFECT OF DENSITY GRADIENTS IN CONFINED SUPERSONIC SHEAR LAYERS. PART 2 3-D MODES OSHlN PEROOMIAN and R. E. KELLY 7 Nov. 1994 35 p (contraCt(~)/Gmnt(~): NCC2-374) (NASA-CR-198030; NAS 1.26:198030) A01
TheeffectofbasicAowdensitygradientsonthesupersonicwall modes were investigated in part 1 oftlrisanalysis. In that investigs- tion onlythe 2-0 modes were studied. Tam and Hu investigatwl Ihe 3-D modes in a confined VOlFexsheetand reported thatthe first2- D -Amode (Aol) had the higW~I ~RWUI mte comparedtoa# other 2-0 and 3-D modes present m the vortex sheet for that partiarlarsetoffkwpattems.Theyatsoshawedlhatthisreaultatso heldtnreforfinitelhaness shearlayerswithdefta(SUbW)~than 0.125. For free sheartayers, sandham and bynold8S;twmed that
Avail: CAS1 HC Ao31MF
the 3-D K-H mode became the &mirum! modeforM(sub c) greater than 0.6. Jackson and Grosch investiggtedtheeffectofaossfiow andobliqueness on the slow and fast odes present in a M(s& c) greaterthanl enviromnentandshawedthatforcertaincombbration of crossflaw and wave angles the growth rates could be inaeased by up to a factor of 2 with respect tothe 2-0 case. The case studied here is a Eonfined shear layer shown m Part 1. All solution pfoce- dums and basic low profilesare the same as m PsJt 1. The effect of density gradients on the 3-0 modes present m the density ratios
Author consided in Part 1 are investigated.
N95-24461Y Texas A&M Univ.. College Station. TX. Dept. of Mechanical Engineering. THERMOHYDRODYNAYK: ANALYSIS OF CRYOGENIC UaUlD TURBULENT FLOW FLUID FILY BEARINGS, PHASE 2 A n n u l Research Progress Report, 1 Jan. - 31 Doc. 1994 LUIS SANANDRES 31 Dec. 1994 211 p (contraCt(s)/crant(s): NAG3-1434)
A03 (NASA-CR-197412; NAS 1.26:197412) Avail: CAS1 HC AlQlMF
The Phase 2 (1994) Annual Pmgmss Report presents two
flexure-pad hybrid bearings, and the unstsady ttoW and transient response of a point mass rotor supported on fluid film bearings. A literature review on the of fkw in fluid fibn bearings and part of the proposed work for 1995 are also induded. Theprogramsdeliveredattheendof1994arenamedhyddbxtand hydrolran. Both codes are fuUy compatible with the hydrcwealt (1993) progm. The new programs p" - ca!cumg options of hydrosealt plus the added beanng geommes .and unsteacQRawandtransientfwcedresponse. Refertothehyddexl & hydratran User's Manual andTiffoniai for basic Momaton * onthe analySisand- ' 1 D M t h e P r o g r a m S . T h e ~ H e n d - bookcontainsthe testkaing casesakngwilh -wnh experimental data or pubbhud analytical values. The foyowhg major tasks were compktd in 1994 (Phase 2): (1) edenwn . ofthe the~ydrodynenric a n a l y s i s a n d d e v e l o p m e n t o f ~ ~ gram hydroflext to model variws bearing 1 nemely. BMngped hydrodynamic pumal bearings, * s c y l i & b I beenngs ~ t i c a n d h y d r o d y n a m i c ) , e n d c y l i n d r i c a l ~ ~ r - mgs with a simple elastic matrix ( i foil bearings); (2) inprwbd thermel model indudii radial hetat tmnsfer through the bearing
bearingsandthetrarrsientmsponsedapointmassrotorsupported on bearings; end (4) a fiteratum review on the subiectof- firmsand- * I b w s i n U l i n - r n ~ .
oerivdfromtexl
0.s .ks-1 --she& -4 . d WEj %p!Z! %*WS &sx3!zg "R "-.I- 9.rrJ'v "0 e w - PI-
Stator; (3) Cak~laW of the Mk-ttoW fiekl nuid Rhn
31 Oct. 1994 48 p Transl. into ENGLISH from various Eurasian articles
Translated artides cover the following topics: delay effect and energy transfer thrwgh a turbulent atmosphere to a moving object; nonlinear phenomena in active phased arrays; linearizing module- tioncharacteristicsofmicrowavebroadtmdavalanchetransittime diode oscillators with VaraCtoT frequency turning; micrawave radia- tion absorption by edgstvpe Josephson junctions in wide-band detection mode; and l o C a l i of vibrations m the shroudad Made
Author
(JPRS-UST-94-027) Avail: CAS1 HC AOWF A01
assBmwy of the rotor wlwd of a tu-.
N95-2- W- Savannah River Co.. Men, SC. RESIDUAL STRESS MEASUREMENTS WITH LASER SPECKLE CORRELATION INTERFEROMETRY AND LOCAL HEAT TREATING M. J. P E C H E M . R. F. MILLER, and C. S. WKRAM (Alabama Univ.. Huntsville. AL.) Jan. 1994 26 p presented at the SPlE '95: SPlE Conference on Optics. EIectrPopbcs . ,andLaserAqplicationin Science, Engineering and Medicine. San Jose. CA, 5-10 Feb. 1995 (hnbad(SyOrant(S): DE-AC0489SR-18035) (0- , WSRCMS-W-0632; CONF-gS0226-3) Avail: CAS1 HC AO3/MF A01
A new experimental technique has been devisedto measure residual stmssesin duclile materiats with aannbination of laser spedde pattern interferometryand spotheating.The speclde pat- terninterfemmetermin-plamdehmmww . whlletheheat- i n g ~ ( a ~ k c a l i z e d s t r e s s n l i e f . T h demnindbytheamantdsbahlhat ismem8umd~lo m € i h . a a i n o a n d c d h ~ b e i n g ~ W p s n m s t s r m h w t o p r o v i d b a - . dule method. This desaiptkn is fonowod by 7 . oflhemsutts offiniteeibmentaand- ~ W i l t l ~ t e a t specimens.Exceyentagreementbehrreentheexpwimmbandthe cOmputer analyses were obtained. DOE
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N95-24759# DC. JPRS REPORT: SCIENCE AND TECHNOLOGY. CENTRAL EURASIA 25 Nov. 1994 79 p Transl. into ENGLISH from various Central Eurasian articles (JPRS-UST-94-032) Avail: CAS1 HC AO5/MF A01
Translated articles cover the following topics: synthesis of stabilization systems for unmanned aircraft using spatial states methods; synthesis of two-dimensional nonequidistant antenna arrays based on theory of difference sets; study of the stability of an elastic hull-fuel lines-engines system for liquid fuel packet arrange- ment rockets; determining parameters of strength kinetics and critical dimension of fracture of composite materials by recording electromagnetic radiation pulses recorded during fracture; air den- sity distribution around supersonic cone at angle of attack; and transfer of laser energy through turbulent atmosphere to far moving objects. CAS1
N95-25394'11 Queensiand Univ., Saint Lucia (Australia). Dept. of Mechanical Engineering. SHOCK TUNNEL STUDiES OF SCRAMJET PHENOMENA 1993 R. J. STALKER, R. J. BAKOS, R. G. MORGAN, L. PORTER, D. MEE, A. PAULL, S. TLJllLE, J. M. SIMMONS, M. WENDT, K. SKINNER et al. Jan. 1995 108 p Sponsored in cooperation with the Australian Research Council and the Queen Elizabeth 2nd FellowshipScheme (Contract(s)/Grant(s): NAGW-674; RTOP 505-7062-04) (NASA-CR-195038; NAS 1.26:195038) Avail: CAS1 HC AO6IMF A02 Reports by the staff of the University of Queensland on various research studies related to the advancement of scramjet technology and hypervelocity pulse test facilities are presented. These reports document the tests conducted in the reflected shock tunnel T4 and supporting research facilities that have been used to study the injection, mixing, and combustion of hydrogen fuel in generic scramjets at flow conditions typical of hypersonic flight. In addition, topics include the development of instrumentation and measure- ment technology, such as combustor wall shear and stream compo- sition in pulse facilities, and numerical studies and analyses of the scramjet combustor process and the test facility operation. This research activity is Supplement 10 under NASA Grant NAGw-674. For individual titles, see N95-25395 through N95-25400.
N95-25400'11 Queensiand Univ., Saint Lucia (Australia). Dept. of Mechanical Engineering. BALANCES FOR THE MEASUREMENT OF MULTIPLE COMPONENTS OF FORCE IN FLOWS OF A MILLISECOND DURATION D. J. MEE, W. J. DANIEL, S. L. TUTTLE. and J. M. SIMMONS In its Shock Tunnel Studies of Scramjet Phenomena 1993 p 107-1 12 Jan. 1995 Sponsored In cooperation with the Australian Research Council and the Queen Elizabeth 2nd FeilowshipScheme Avail: CAS1 HC AOmF A02
This paper reports a new balance for the measurement of three components of force - lift, drag and pitching moment - in impulsively starbng flows which have a duration of about one millisecond. The basics of the design of the balance are presented and results of tests on a 15 deg semi-angle cone set at incidence in the T4 shock tunnel are compared with predictions. These results indicate that the prototype balance performs well for a 1.9 kg. 220 mm long model. Also presented are results from initial bench tests of another application of the deconvdution force balance to the measurement of thrust produced by a 2D scramjet nozzle. Author
N95-25592' National Aeronautics and Space Administration. Lyndon 8. Johnson Space Center, Houston, TX. PRELOAD RELEASE MECHANISM Patent ROBERT M. GENEROLi, inventor (to NASA) (McDonnell-Douglas Corp., Houston, TX.) and HARRY J. YOUNG, inventor (to NASA)
Joint Publications Research Service, Washington,
350
(McDonnell-Douglas Corp., Houston, TX.) 14 Mar. 1995 10 p Filed 20 Apr. 1994 Supersedes N94-36839 (32 - 12, p 4450)
CLASS-HO1 R-13629) A V ~ ~ I : us patent and Trademark Office This invention relates to a preload release mechanism COm-
prising a preload spring assembly adapted to apply a preload to a first connector member which is mounted on a support structure and adapted for connection with a second connector member on an object. The assembly comprises telescoped bushings and a preload spring. A tubular shaft extends through the spring assembly and openings in the first connector member and support structure, on which it is clamped. A plunger rod in the shaft is provided with a tip end and a recess in the rod near the other end thereof. A retainer precludes passage of the rod through the shaft in one direction and an end cap closes the bore of the shaft at the other end and provides a shoulder which extends radially of the shaft. A plunger retum spring biases the plunger rod against the plunger retainer with the plunger tip protruding from the shaft and a spring assembly retum spring engages at its ends the shoulder of the end cap and one end of the spring assembly. Detents received in lateral openings in the tubular shaft are held captive by the plunger rod and one end of the spring assembly to lock the spring assembly on the tubular shaft and apply a preload to the first connector member. Upon completion of the connection, detents and spring assembly are released by plunger contact with the object to be connected, thereby releasing the preload while the connection is maintained.
Official Gazette of the U.S. Patent and Trademark Office
N95-25606 Army Research Lab., Aberdeen Proving Ground, MD. WORKSHOP REPORT: MEASUREMENT TECHNIQUES IN HIGHLY TRANSIENT, SPECTRALLY RICH COMBUSTION ENVIRONMENTS Final Report, 1-30 Nov. 1993 TODD E. ROSENBERGER Sep. 1994 204 p Limited Reproduc- ibility: More than 20% of this document may be affected by micro- fiche q u a l i (AD-A288395; ARL-SR-18) Avail: Issuing Activity (Defense Tech- nical Information Center (DTIC))
With the emergence of advanced propulsion systems such as liquid propellant (LP). electrothermal-chemical (ETC). electromag- netic (EM), conventional hypewelocity, and in-bore ramjet. the measurement of combustion phenomena has become more com- plex. The data associated with these systems can be rich in high- frequency components, and share similar transient behavior. Measurement techniques associated with conventional d i d propei- lant systems are not always capable of accurately recording these phenomena. The accuracy of pressure and acceleration measure- ments In combustion chambers, barrels, and on-board projectiles has been compromised by the lack of a fundamental understanding Of the effects of the mounting configuration and the mechanical and ~lectrical components of the transducer on the integrity of the measurement. Consequently, the system development and techni- cal understanding of the physical processes involved in the Ignition and combustion of such advanced propulsion systems have been compromised. A workshop was needed to bring together experts from the aforementioned and related communities to disseminate knowledge of lessons learned and to discuss the techniques neces- sary to make high-fidelity pressure measurements in these environ- ments. This report will state the objectives, identify the participants who met to address them, provide a list of the technical presenta- tions made, present highlights from these presentations and the discussions that they prompted, and end with conclusions and recommendations which came out of the workshop. DTIC
NS26749 Research Inst. of National Defence. Linkoeping (Swe- den). Dept. of Command and Control Warfere Technology. OR~ENTATION DETERMINATION OF AIRCRAFT USINQ VISUAL 3D MATCHING AND RADAR. CASE STUDY 2 H. A. OLSSON, M. BENGTSSON, and P. ROlVAlNEN Aug. 1994
(NASA-CASE-MSC-22327-1; US-PATENT-5,397,244; USPATEN- APPL-SN-230571; US-PATENT-CLASS-439-248; INT-PATENT-
26 P
GEOSCIENCES 13
(PB95-165791) Avail: Issuing Activity (National Technical Informa- tion senrice (NTIS))
This study is an application of a matching method using 3D models and images. In the earlier case study we combined radar data and visual matching for aircraft identification and orientation determination. We analyzed a video sequence of an aircrafttogether with radar data, where the radar has guided the tracking of the aircraft. The purpose of this case study is to test our new 30 model, ~omposd of edge segmtsfromthe silhwette of an aircraft and to see if it is possible toanalyze the video sequence onlywith visual matching. after the radar has given the initial start values. NTlS
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lndudesgeosciences(general);ear(hresources;energyproducbjon and conversion; emrimmenl ponuth; geophysics; meteombgy and climatology; and OCBBI1OBfBphy.
A 9 5 - m N a t i o n a l A e r o n a u t k s a n d S p a c e ~ . .Am0s Research center. Moffell Field, CA. ANALYSIS OF THE PHYSICAL STATE OF ONE ARCTIC POLARSTRATOSPHERICCLOUDBASEDON OBSERVATIONS K. DRDIA Univ. of Cal imia at los Angeles, Los Angeles, CA, US, A. TABAZADEH NASA. Ames Research Center, Mett FW. CA. US, R. P. TURCO Univ. of cafikmiaat Los Angeles, LosAngel6s. CA. US, M. Z. JACOBSON W. d California at Los krgeles, Los Angebs, CA. US, J. E. DYE Nationsl Center for Abnospheric Research, Boulder. CO, US. C. TWOHY Natkmal Center f o r m spheric Research, Bou#er. CO. Us. and D. BAUMGARDNER NationalCenterforAmmptmc . Rejearch.Boulder.CO,US Geo- physical Research Letters (ISSN 00944276) vd. 21. no. 23 November 15.1994 p. 24752478 Research sponsored by NCAR Advanced Study Program Graduate Fellowship (Contract(s)/Grant(s): NAGW-2183)
During thA Armc - Smmpheric Expedition (WE) simultaneous measurements of aerosol size distribution and
Paths. The flow characteristicsofthe NO(y) instrumentallow usto derive thecondensed NO(y)amount(assumedtobeHN03)present during polar stratospheric dwd (PSC) events. Anatysis of the Janwry24thflightindiilhatthiscondensed HN03amwntdoes not agree well with the a e d volume if the observed PSCs are amposed of sdi nitric add trihydrate (NAT). as is generally assumed.However,the- agmeswellwithlhatpedicted for liquid H2S04MN03M20 sobtion droplets ushg a new Aenwd Physical Chemistry Modef (APCM). The agreementcomqmds in d e t e i l t o v a r i a t i o n s i n ~ a n d h u n i d i t y . T h e ~ p e r e e n t - agesofH2SO4.HN03 ,andHX)der ivedf rcnnh~a l i cOrreSpOnd tothose predicted fortemary. liquid aduliars. - (He-) A95-78oo(r Nat ionalAeronaut icsandspece~.knes
(HTN-95-70917) Cop-
NO(y)(HN03 + NO + NO2 + 2(N205)) WW made aiOng ER-2 f l i
Research Center. Moffett FW. CA. THE DISTRIBUTION OF HYDROGEN, NITROGEN, AND CHLORINE RADICALS IN THE LOWER STRATOSPHERE: lMPUCAflONS FOR CHANGES IN 03 W E TO EMISSION Of N O M FROM SUPERSONIC AIRCRAFT
WOFsY Harvard urriv.. cemkidge. m y 0. WEHNBERG Haward w., cambridge, MA. US, R. C. COHEN Hanrard unhr..
US. J. 0. ANDERSON HaMad m., -. MA US, D. W. FAHM NOM Aeronomy Idmmbry. Boulder. CQ. US, R. S. G A O N O M ~ ~ Labocatocy. Barlder. CO. US, E. R. KElM N O M Aeronomy ~aboretoty. BaJder. CO. US. E. L. WOODBRIDGE, R. M. STlMPFLE Harvard Urtiv.. Cambridge, MA, Useta. GeophysicalResearchLetters(ISSN00968276) vd.21,
R. J. SAWWITCH Harvard univ., . , MA. us. S.C.
no. 23 November 15,1994 p. 2547-2550 (Contract(~)/Grant(~): NAG2-731; NAGW-1230; NAS1-19955; NSF ATM-89-21119) ("-95-70935) Copyright
In situ measurements of hydrogen, nitrogen, and chlorine radicals obtained in the lower statosphere during SPADE are com pared to results from a photochemical model that assimitates measurements of radical preatrsors and environmental conditions. Models allowing for heterogeneous hydrolysis of N205 agree weU with measured cmcentmtions of NO and CK). but mwnmtms - o f H02 and OH are underestimated by 10 to 25%. comemations of NO2 are overestimated by 10 to 309c. and . ofHClare overestimated by a factor of 2. Disaepencl -esror(oH)and(Ho2)are reduced if we allow for higher yields of O((1)D) from 02 photolVsis and for heterogeneas producbion of "02. The data sqgest more efficentcatatybic removal of 03 by hydrosen and halogen radicals relativeto nitrogen oxide radicalsthan predicted by models using recommendend rates and crwcs sections. lnaeased in (03) in the lowerstratospheremaybelargerinrespatsetoinputsofNO(y)frun supersonic aircraft than estimated by current assessmentmodeJs.
Author (Hemer)
AS78006- ~AeronauticsandspaceAdminMration .Ames Research Center, Moffett FM. CA. VERTICAL TRANSPORT RATES IN THE STATOSPHERE IN 1993 FROM OBSERVATIONS OF C02. N20, AND CHI STEVEN C. WOFSY Harvard Univ.. camkidge. MA, US, KRISTIE A. BOERING Haward Univ., Cambridge. MA, US, BRUCE C. DAUBE. JR. Ha& Unhr.. cembridge. MA. US, MICHAEL 8. MCELROY Harvard Univ.. Cambridge, MA, US, MAX LOEWENSTEIN NASA. Ames Research Center, Moffett Ftefd. CA, US, JAMES R. PODOLSKE NASA. Ames Research Center, Moffett Field, CA, US, JAMES W. ELKINS NOM, Boulder, CO. US, GEOFFREY S. W O N NOAA. Boulder, CO. US, and DAVID W. FAHEY NOAA, BwMer. CO. US Geophysical Research Letters
2574 Research sponsored by DOE (contrect(s)/Gfant(s): NCC2-694)
MeasurementsofCO2,N2O,andCH4areanalyredtodeftne hermspheric average vertical exchange rates in the lower strato- sphere from November 1992 to October 1993. Effective vertical diffusion coeffidentswere small in !5ummer, lessthan or equal to 1 sq mls at a&tudes below 25 Ion; values were similar near the
in winter, but increased markedly with altihrde. The analysissuggestspossible longer residencetimesforexhaWfrun s t r a ~ h e r i c a i r c m a n d m e f f i ~ ~ f m n l 2 o h t o t h e middle stratosphere. than predicted by many cunent models. Sea- sonally-resohred measurements of stratospheric co2 and N20 prOVideSi@bltneWCOMhmtS . cmratesforgkbal-scalevertical transport Author (Hemer)
AS5-18ooo' National Aeronautics and Space Administration. Langley Research Center, Hampton, VA. AN ANALYSIS OF AIRCRAFT EXHAUST PLUMES FORM ACCIDENTAL ENCOUNTERS J. ZHENG Univ. of colorado. Boulder, CO. US, A. J. WEINHEIMER National Cemter for Atmospheric Research, Boulder, CO, US, 8. A RIDLEY National Center for Atmospheric Research, Barkler. CO. US, S. C. LIU Mi. of Colorado, Boulder, CO, US, 0. W. SACHSE NASA. LangJey Research Center, Hampton, VA, US, B. E. ANDER- SON NASA Langley Research Center, Hampton, VA, US, and J. E. COLLINS. JR. Oeophyslcal . ResearchLettenr(ISSNoo9cBn6) vol.21, no.23 Navember15.1994 p.2519-2582 Resear& sponsoredbyNASAandNSF
(ISSN ooses27s) vd. 21. no. 23 NWmber 15,1994 p. 2571-
("-95-70941) m g h t
("-95-70943) cowriaht A n ~ o f o f ~ n e d d u r i n g t h e ~ A i r b a m e A r c b j c
Stretospheric w o n (AASE-II) Was made wilh aircraft exhaust plummi accidentally encountered during the mis- sion. Twenty spikes were found with peak NO(y) increments greater
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than or equal to 1 ppbv. The examination of CO and C02 indicated that there was only one NO(y) spike having clearly corresponding spikes of both CO and C02 and another four with unambigious C02 spikes. No significant increases were found for CH4 and N20 for these 5 spikes. The ratio of the excess C02 and NO(y) compares well with the ratio of published subsonic aircraft emission indices. The study of the selected spikes from the DC-8 and another two spikes observed during other missions shows that the odd nitrogen other than NO(x) accounts for a very small percentage of the NO(y) increase associated with the observed spikes. Author (Hemer)
A95-78009' Jet Propulsion Lab., California Inst. of Tech., Pasa- dena, CA. MERIDIONAL DISTRIBUTIONS OF NO(X), NO(Y), AND OTHER SPECIES IN THE LOWER STATOSPHERE AND UPPER TROPOSPHERE DURING AASE 2 A. J. WEINHEIMER National Center for Atmospheric Research, Boulder, CO, US, J. G. WALEGA National Center for Atmospheric Research, Boulder, CO, US, B. A. RIDLEY National Center for Atmospheric Research, Boulder, CO, US, B. L. GARY Jet Propul- sion Laboratory, Pasadena, CA, US, D. R. BLAKE Univ. of Califor- nia, Iwine. CA, US, N. J. BLAKE Univ. of California, IMne, CA, US, F. S. ROWLAND Univ. of California. IMne. CA, US, G. W. SACHSE NASA. Langley Research Center, Hampton, VA, US, 8. E. ANDER- SON NASA. Langley Research Center, Hampton, VA. US, and J. E. COLLINS NASA. Langley Research Center, Hampton, VA, US Geophysical Research Letters (ISSN 0094-8276) vd. 21, no. 23 November 15. 1994 p. 2583-2586 Research sponsored by NASA and NSF
The meridional distribution of NO(x) in the lower stratosphere and upper troposphere is inferred form 10 flights of the NASA DC- 8 in the northern winter of 1992 along with like distributions of NO(y), NO(x)/NO(y), CO, and C2C14. In the lowest few km of the strato- sphere there is little vertical gradient in NO(x) over the range of latitiudes measured (40 deg-90 deg N). There is a substantial latitudinal gradient, with 50 pptv above the pole and 120 pptv near 40 deg N. In the uppermost few km of the troposphere. background values range from 30 pptv over the pole to 90 pptv near 40 deg N. On two occasions higher values, up to 140 pptv in the mean, were seen 2-3 km below the tropopause in association with frontal systems. The meridional distributions of CO and C2C14 show the same feature, suggesting that the source of the elevated NO(x) is near the earth's system. Author (Hemer)
(HTN-95-70944) Copyright
A95-78011' Jet Propulsion Lab., California Inst. of Tech., Pasa- dena, CA. COMPARISON OF COLUMN ABUNDANCES FROM THREE INFRARED SPECTROMETERS DURING AASE 2 W. A. TRAUB Smithsonian Astrophysical Obsewatory, Cambridge, MA, US, K. W. JUCKS Smithsonian Astrophysical Obsewatory, Cambridge, MA, US, D. G. JOHNSON Smithsonian Astrophysical Observatory, Cambridge, MA, US, M. T. COFFEY National Center for Atmospheric Research, Boulder, CO, US, W. 0. MANKIN Na- tional Center for Atmospheric Research, Boulder, CO, US, and G. C. TOON Jet Propulsion Laboratory, Pasadena, CA, US Geophysical Research Letters (ISSN 0094-8276) vol. 21, no. 23 November 15, 1994 p. 2591-2594 Research sponsored by NASA and NSF (Contract(s)/Grant(s): NSGS-175)
Three Fourier transform infrared (FTIR) spectmnters were based on board the NASA DC-8 during the second Airborne Arctic Stratospheric Expedition (AASE II) in 1992. Two FTlRs used solar absorption and one used thermal emission. We compare over 2000 measurements from these 3 FTIRs. on 12 DC8 flights, for closely coincident air masses and times, both inside and outside the polar vortex. In the majority of cases the offset biases are quite small, in the range 1-4%, and comparable to the absolute precisions ex- pected. In most cases the nns scatter is in the range 4-11%; this
352
(HTN-95-70946) Copyright
scatter is unlikely to be geophysical, but rather is probably instru- mental or analytical in origin. Author (Herner)
A95-78012' National Aeronautics and Space Administration. Goddard Space Flight Center, Greenbelt, MD. CHEMICAL CHHANGE IN THE ARCTIC VORTEX DURING AASE 2 WESLEY A. TRAUB Smithsonian Astrophysical Observatory, Cam- bridge, MA, US, KENNETH W. JUCKS Smithsonian Astrophysical Observatory, Cambridge, MA, US, DAVIDG. JOHNSON Smithsonian Astrophysical Observatory, Cambridge, MA, US, and KELLY V. CHANCE Smithsonian Astrophysical Observatory, Cambridge, MA, US Geophysical Research Letters (ISSN 0094-8276) vol. 21, no. 23 November 15,1994 p. 2595-2598 (Contract( s)/G rant( s) : NSG5- 1 75)
We measured column abundances of HF. HCI, 03, "03, and H20 on the NASA DC-8 during the AASE II campaign, using thermal emission spectroscopy. We made multiple traversals of the Arctic vortex and surroundings. Using HF as a tracer, we remove the effects of subsidence from the measured column abundances; perturbations in the resulting column abundances are attributed to chemical processing. We find that by January 1992 the stratospheric column in the vortex had been chemically depleted by about (%+/-lo)% in HCI and (35+/-lo)% in 03, and enhanced by about (15+/-lo)% in "03 and (O+/-lo)% in H20.
Author (Hemer)
ABS-78013' Jet Propulsion Lab., California Inst. of Tech., Pasa- dena, CA. LATITUDE VARIATIONS OF STRATOSPHERIC TRACE GASES 0. C. TOON Jet Propulsion Laboratory, Pasadena, CA, US, J.-F. BLAVIER Jet Propulsion Laboratory, Pasadena, CA. US, and J. T. SZETO Jet Propulsion Laboratory, Pasadena, CA, US Geophysical Research Letters (ISSN 0094-8276) vol. 21, no. 23 November 15,
We present vertical column abundances of H20. N20, "03, N02. 03. HF, HCI, and CIN03, determined from solar absorption spectra measured by the JPL MklV interferometer from the NASA DC-8 aircraft. These observations. taken in 1987 and 1992, covered latitudes ranging from 85 deg S to 85 deg N. Although most gases display latitude symmetry, large asymmetries in H20, "03, and 03 are apparent, which can be ascribed to processes enhanced by the colder Antarctic winter temperatures. Author (Hemer)
AQS-78014' National Aeronautics and Space Administration. Goddard Space Flight Center, Greenbelt, MD. FINE-SCALE, POLEWARD TRANSPORT OF TROPICAL AIR DURING AASE 2 D. W. WAUGH Massachusetts Institute of Technology, Cambridge, MA, US, R. A. PLUMB Massachusetts Institute of Technology, Cambridge, MA. US, P. A. NEWMAN NASA. Goddard Space Flight Center, Greenbelt, MD, US, M. R. SCHOEBERL NASA. Goddard Space Flight Center, Greenbelt, MD, US, L. R. LAlT NASA. Goddard Space Flight Center, Greenbelt, MD, US, M. LOEWENSTEIN NASA. Ames Research Center, Moffett Field, CA. US, J. R. PODOLSKE NASA. Ames Research Center, Moffett Field, CA, US, J. W. ELKINS NOAA, Boulder, CO. US, and K. R. CHAN NASA. Ames Research Center, Moffett Field, CA, US Geophysical Research Letters (iSSN 0094-8276) vol. 21, no. 23 November 15,1994 p. 2603-2606 (Contract(s)/Grant(s): NAGW-1727)
The pdeward transport of tropical air in the lower stratosphere during the winter period of the second Airborne Arctic Stratospheric Expedition (AASE 2) (December 1991-March 1992) is examined using contour advection calcutions. These calculations show that filaments of tropical air extend into mid-latitudes. and are wrapped around the equatorward edge of the polar jet. Simultaneously filaments are drawn from the polar vortex and are intermingled with
(HTN-95-70947) Copyright
1994 p. 2599-2602 (HTN-95-70948) Copyright
(HTN-95-70949) Copyright
GEOSCIENCES 13
the filaments of tropical air. The tropical filaments are Mnsistent with measurements of chemical tracers taken aboard the ER-2 and DC- 8 aircraft w h i i show localized regions, m mid-latitudes, of air with the characteristics of tropii air. Author (Hemer)
ASS-76670 NITROUS OXIDE AND METHANE EMISSIONS FROM AERO ENGINES P. WIESEN Univ.-GH Wuppertal. Wuppertal. Germany, J. KLEFFMANN Univ.-GH Wuppertal. Wuppertal, Germany. R. KURTENBACH Univ.-GH Wllpperta, Wuppertal. Gennany, and K. H. BECKER Univ.-GH Wuppertal. Wuppertal. Gefmany Geophysc cal Research Letters (I= 00944276) vol. 21, no. 18 sepa#nber
The enrissions of nitrous oxide and methane from a Ratt 6 Whitney Canada PW 305 and a Rdis Royce RE21 1 jet engine were measured under various f@ht codtbns either on a ground level stationary test stand or in alwlde test calls by using an off-line sampling technique. The . ofthegaseswemdeter- mined by long path infrared diode laser absorption spectroscoWin the laboretory. The calculated emision indices indicete that, at present, air traffic does not contribute significanl3y to the gbbal budgets of methane and nitrous Oxide. Author (Hemer)
1.1994 p.2027-2030 R e s e a r c h ~ p ~ n ~ ~ d b y t h e E C ("-95-21363) copvriam
A95-78679 IMPACT OF PRESENT AIRCRAFT EMISSIONS OF NITROGEN OXIDES ON TROPOSPHERIC OZONE AND CLIMATE FORCING D. A. HAUGLUSTAINE CNRS, Per$. France. C. GRANIER Natknal Center for Atmospheric Research, Boulder, CO, US, 0. P. BRASSEUR National Center for ABnospheric Fbesearch, BwMer, CO. US, and G. MEGlE CNRS, Paris, France Oeophysical Research Letters (ISSN 00944276) vd. 21, no. 18 September 1.
Gas Research InStiMe 1994 p. 2031-2034 Research -red by the NSF. CEC. end
(HTN-95-21364) Copyright A two-dimensional (2-D) modef m whim dynamks. radiation
-..- ....Y.l. .,, -10 LIWIC)(I aaturacuveiy k used io imesiipta i t ~ seasonal changes in tropaspheric ozone due to cwrent nitrogen oxide emissions from aim and to asses the Bssodated radiative forcing on the dimate system. Ourresrdts confirm the high effidency of nitrogen oxide in-situ emissions in producing ozone in comparison to surface emissions. The ozone increase is chamctew by a strong seasonal variam, it reaches more the 7 % during swwner in the upper troposphere at northern mid-latitudes. On a global average basis, the radiative forcing asmciaw with this ozone increase appears to be small in cOmpariSOn tothat of other green- house gases. However. it may play a signiricant d e in the anthro- pogenic forcing on northem hemisphere dimate. Author (Hemer)
p d I- 4--.- -I -.-
Ass7w55 SENSITIVITY OF SUPERSONIC AIRCRAFT YODELLING STUDIES TO "03 PHOTOLYSIS RATE A. E. JONES Univ. of Cambridge, Cambridge, UK. S. BEKKI W. ofCambri~,Cambridge,UK,andJ.A.PYLEUniv.ofCambridge. Cambridge, UK Geophysical Research Le- (ISSN 00968276) W.20.no.20 Odober22.1993 R.zBI-~~M--
uncertainties in photochemical data. We considerthe sendtMy with respect to "03 photolysis rates, which are dependent upon the assumed photochemical data. There is also considerable variavility between &Is in the calculated photolysis rates. If temperature dependent absorption cross sections for "03 are used in model simulations of supersonic aircraft exhaust impact, the calarlated ozone loss at high latibdes is significantly reduced. and an ozone increase rather than a decrease is calculated for low to mid- latitudes. The result emphasized our cunenl uncertainty about the impact of Mure supersonic aircraft on ozone chemistry and more genraliy, about processes operating in the lower stmbsphre.
Author (Hemer)
A95do52s TRACER TRANSPORT FOR REALISTIC AIRCRAFT EMISSION SCENARIOS CALCULATED USING A THREE- DIMENSIONAL MODEL CLARK J. WEAVER Applied Research Corporabon ,Landwer.MD. US, ANNE R. DOUGLASS NASA. Goddard Space FligM Center, Greenbelt, MD, US, and RICHARD E. ROOD NASA. Goddard Space F l i i Center, Greenbelt, MD, US Jwmal of Geophy&d Research (ISSN 01484227) voi. 100, no. D3 March 20,1995 p. 5203-5214
A- transportmodel,whichweswindsfroma stratosphericdataessimilatiar system, is used to study the triins- port of supersonic aircraft exhaust in the lawer stra8osphere. A ~ t r a c e r i s c o n t i n w u d y ~ i n t o ~ ~ m o d e l . T h e tracersourcedimbuwn . i sbasedonrea l is t ic~ for thede#y emission rateof mactive nilmgenspeciesforaUfiorecastedRigM mutes. Windsare fromnorthem hemisphere winterfspring monihs for 1979end 1989; theman, minim8d dmerences behmren the traeer integrations for the 2 years. During the integration, peak imcer mixing ratiosin the lliitconidorsare campared with the zonal mean and found to be greater by afactor of 2 or less. This implies that the ZOn€l l~essumptron ' rrsedintwodimensionalmodelsisreason- able during winter and spring. There is a preference for pollutant buldupinthe heavifytraveied North Pacific and North Attanticfl i corridors. Pollutant concentrabon . inthemmido= _:c!epm!smm position of the Aleutian anticydone and the northem hemisphere polarwte4xedge. -(-r)
("-95a1799) ?wYwlt
A95-80559 COMPARISON OF WIND PRORLER AND AIRCRAFT WIND MEASUREMENTS AT CHEBOGUE POINT, NOVA SCOTIA WAYNE M. ANGEVINE University of Colorado. Boulder, CO. US and J. IAN MACPHERSON National Research Council, Ottawa. Ontario. Canada Journal of Atmosphericend~Technoiogy (ISSN 0739-0572) vd 12, no. 2 April 1995 p. 421-426 Resemch sponsmd by the U.S. Deparbnentof Energy and the Atmospheric Envinnwnentserviceofcanada ("-9!xlfJ33)
tnAugust1993,aQlS.MHzbwndarylayerwind-profilingradar was deplayed at Chebogue Point, Nova scotia, to provide wind, hnbufence. and bomdaty layer StNChne Momabon . f o r t h e m Atlantic Regional Experiment Summer 1993 intensive campaign. The National Research Council Canada (NRCC) Twin Otter amo- sphericr8searchaircraftwasatsopanofthatcempaign.Dulingthe mnpaign,theTwinOtter Rew 29 soundings over chebogue Point. Thiipaperdescribesaampaanparisonof the windspeedanddireclion measured by the protiler and the aircraft. In the height range 300- 2OOO m above sea level. the rendom diffen#lce betweenthewind speed lwammwm is 0.9 mls, andthe rsndan diffen#lce be- tween tb wind direction meesurementsis Qdeg. There $ a anall systematic difference in the wind speeds (0.14mls)thatis pmbably due to uncertainty in the Zenith angles ofthe radar beams and extremelygoodagreement(within0.5deg)inthewinddrection.The Kalmanfitter-rmoothertechwue usedtoremovedirftsmtheinertiel navigation system is shown to be important in achieving these favoraMe results. Author (Hemer)
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A9540829 NORTH ATLANTIC AIR TRAFFIC WITHIN THE LOWER STRATOSPHERE: CRUISING TIMES AND CORRESPONDING EMISSIONS KLAUS P. HOINKA lnstitut fuer Physik der Atmosphare, Wessling, Germany, MANFRED E. REINHARDT lnstitut fuer Physik der Atmosphare. Wessling, Germany, and WERNER METZ Universitat Muenchen, Munich, Germany Joumal of Geophysical Research (ISSN 0148-0227) vol. 98, no. D12 December 12,1993 p. 23,113- 23,131
This study estimates cruising times and related pollutant emis- sions (NO(x), CO, HC) and H20 of todays aircraft fleet within the troposphere and stratosphere performed for the North Atlantic region in between 45 deg N, 65 deg N, 10 deg W, and 50 deg W for the years 1989. 1990, and 1991. The tropopause surface distribution is deter- mined through analysis of assimilated data. Both conventional lapse rate and potential vorticity criteria are employed to determine the location of the tropopause surface. These data combined with air traffic statistics are used to evaluate cruising times within the troposphere and stratosphere separately. The study shows an average of about 4 4 O h of the cruising time of the aircraft above the North Atlantic flown within the stratosphere. Based on emission indices of aircraft engines, the emissionratesof NO(x)(inmassunitsof N02)intothestratosphereand troposphere in the given region result in 0.26 and 0.33 x 1 O(exp -12) kg/ q d s , respectively. Author (Hemer)
A95-80830' National Aeronautics and Space Administration. Langley Research Center, Hampton, VA.
SPEED CIVIL TRANSPORT: SENSITIVITY TO STRATOSPHERIC AEROSOL LOADING DEBRA K. WEISENSTEIN Atmospheric and Environmental Re- search, Inc., Cambridge, MA, US, MALCOLM K. W. KO Atmo- spheric and Environmental Research, Inc., Cambridge, MA, US, JOSE M. RODRIGUEZ Atmospheric and Environmental Research, Inc., Cambridge, MA, US, and NIEN-DAK SZE Atmospheric and Environmental Research, Inc., Cambridge, MA, US Joumal of Geophysical Research (ISSN 0148-0227) vol. 98, no. D12 Decem- ber 12, 1993 p. 23,133-23,140 (Contract(s)/Grant(s): NASI-1 9192)
The potential impact of high-speed civil transport (HSCT) aircraft emissions on stratospheric ozone and the sensitivity of these results to changes in a e m l loading are examined with a twoaimensional model. W b aerosols fixed at background levels, calculated ozone changes due to HSCT aircrafl emissions range from negligible up to 4- 6Y0 depletions in column zone at northern high latitudes. The magnitude of the ozone change depends mainly on the NO(x) increase due to aircraft emissions, which depends on fleet size, cruise attitude, and engine design. The partitioning of the odd nitrogen species in the lower stratosphere among NO, N02, N205, is strongly dependent on the concentration of suffuric acid aeroso( particles. and thus the sensitivity of 03 to NO(x) emissions changes when the stratospheric a e m loading changes. Aerosol concentrations 4 times greater than back- ground levels have not been unusual in the last 2 decades. Our model results show that a factor of 4 increase in aerosol loading would significantly reduce the calculated ozone depletion due to HSCT emissions. Because of the neutral variabiltiy of stratospheric aerosols, the possible impact of HSCT emissions on ozone must be viewed as a range of possible results. Author (Hemer)
A95-80831 HIGH-SPEED CIVIL TRANSPORT IMPACT: ROLE OF SULFATE, NITRIC ACID TRIHYDRATE, AND ICE AEROSOLS STUDIED WITH A TWO-DIMENSIONAL MODEL INCLUDING AEROSOL PHYSICS G. PlTARl Universita degli Studi. L'Aquila, Italy, V. RlZl lstituto Nazionale di Geofisica, Rome, Italy, L. RlCClARDULLl Universita degli Studi. L'Aquila, Italy, and G. VlSCONTl Universita degli Studi, L'Aquila. Italy Jwmal of Geophysical Research (ISSN 0148-0227)
354
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EFFECTS ON STRATOSPHERIC OZONE FROM HIGH-
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vol. 98, no. D12 December 12,1993 p. 23,141-23.164 Research sponsored by the Italian Space Agency and the Commission Of European Communities
In this paper we describe a two-dimensional model covering the whole stratosphere and troposphere which includes photochemical reactions for the sulfur cyde and a microphysical code for sulfuric acid aerosols. Starting from these particles, the same code predicts also the size distribution for nitric trihydrate (NAT) and ice aerosds, COVering globally a partide radius range between 0.01 micrometem and about 160 micrometers. A rather simple scheme is described for nucleation and condensation processes leading to the formation and growth of NAT and ice particles, still using grid point temperature data taken from the zonally averaged climatology of the lower stratosphere. A discus- sion is made of the high-speed civil transport (HSCT) impact on ozone adopting different scenarios for the a e r d s . Model results for the aerosol size distribution and for the available surface densities appear reasonable when compared to satellite and balloon measurements and to independent numerical calculations. As pointed out also by previous research work and assessment panels, our calculation shows that the ozone sensitivity to HSCT emissions largely decreases when hetero- geneous chemistry is included with respect to a pure gas phase chemistry case. In addition, our results indicate that the ozone sensitiv- ity to HSCT emission decreases even more when NAT and ice aerosols are present: this is a consequence of the aerosol-induced stratospheric denitrification which makes the residence time of the injected odd nitrogen shorter and the relative weight of the NO(x) catalybc cycle smaller. lndusion of the sulfur dioxide feedback with the sulfate aerosd surface does not change significantly the ozone depletion in our model simulation, at least in the pure sulfate case. The additional ozone change due to aircraft injection of SO2 is larger when NAT and ice aerosols are allowed to form, due to the decreased ozone sensitivity to NO(x). In this version of the model no direct aircraft emission of particulate has been included as a possible source for additional condensation nuclei. Author (Hemer)
A95-80843' National Aeronautics and Space Administration. Langley Research Center. Hampton, VA. AN INTERCOMPARISON OF AIRCRAFT INSTRUMENTATION FOR TROPOSPHERIC MEASUREMENTS OF SULFUR DIOXIDE GERALD L. GREGORY NASA. Langely Research Center, Hamp- ton, VA, US, DOUGLAS D. DAVIS Georgia Institute of Technology, Atlanta, GA, US, NOBERT BELT2 J.W. Goethe University, Frank- furt, Germany, ALAN R. BANDY Drexel University, Philadelphia, PA, US, RONALD J. FEREK University of Washington. Seattle, WA, US, and DONALD C. THORNTON Drexel University, Philadelphia, PA, US Joumal of Geophysical Research (ISSN 0148-0227) vol. 98, no. D12 December 12.1993 p. 23,32523,352
As part of the NASATropospheric Chemistry Program, a series of field intercomparisons have been conducted to evaluate the state- of-the art for measuring key tropospheric species. One of the objectives of the third intermparison campaign in this series, Chemical Instrumentation Test and Evaluation 3 (CITE 3), was to evaluate instrumentation for making reliable tropospheric aircraft measurements of sulfur dioxide, dimethyl sulfide, hydrogen sulfide, carbon disulfide, and carbonyl sulfide. This paper reports the results of the Intercomparisons of five sulfur dioxide measurement methods ranging from filter techniques, in which samples collected in flight are returned to the laboratory for analyses (chemiluminescent or ion Chromatographic), to near real-time, in-flight measurements via gas chromatographic, mass spectrometric, and chemiluminescent tech- niques. All techniques showed m e tendency to track sizeable changes in ambient SO2 such as those associated with altitude changes. For SO2 mixing ratios in the range of 200 pptv to a few ppbv, agreement among the techniques vanes from about 30% to several orders of magnitude, depending upon the pair of measure- ments intercompared. For SO2 mixing ratios less than 200 pptv, measurements from the techniques are uncorrelated. In general, observed differences in the measurement of standards do not
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GEOSCIENCES 13
accwnt for the flight results. The CITE 3 results do not unambigu- ously identify one or more of the measurement techniques as providing valid or invalid SO2 measurements, but identify the range of 'potential' uncertainty in SO2 measurements reported by currently available in- 'on and as measured under r e a l i i aircraft environments. Author (Hemer)
A95-80844' National Aeronautics and Space Administration. Langley Research Center, Hampton, VA. AN INTERCOMPARISON OF AIRCRAFT INSTRUMENTATION FOR TROPOSPHERIC MEASUREMENTS OF CARBONYL SULFIDE, HYDROGEN SULFIDE, AND CARBON DSULFIDE GERALD L. GREGORY NASA. Langley Research Center, k h p ton. VA. US, DOUGLAS D. DAWS Georgia lnstihde of T W . Atlanta, GA, US. DONALD C. THORNTON Drexel University. Phila- delphia, PA, US, JAMES E. JOHNSON NOAA, Seawe. WA, US. ALAN R. BANDY Drexel University, Phifadelphia, PA, US. ERIC S. SALTZMAN University of Miami, Miami, FL, US, MEINRAT 0. ANDREAE Max-Plan&-Institute fur Chemie, Mainz, Germany. and JOHN D. BARRICK NASA. hngley Research Center, Hampton. VA. US Journal of Geophysical Research (ISSN 014-0227) vol. 98, no. D12 December 12,1993 p. 23.353-23.372
This paper reports results of NASA's Chemical Insttumentath and Test Evaluation ( C m 3) during w h i airborne measurements for carbonyl sulfide (COS). hydmgen sulfide (H2S). and carbon disulfide (CS2) were intemmpamd. lnstnnnentabon . indudedagas
c s ) , a gas C t w o m a t o g r q A ~ (Cos) and CS), a gas v- subsequent SF6 deteaiOn via- the Natuschtechnique (H2S).Themeesuremcmtsmm, madeover the Atlantic Ocean east of North rrnd SUUUI America during llights from NASA's Wallops F l i i center, Virginia, and Natal, Brazil, In AugustSeptember 1989. Rhost of the intercomparisons for H2S and CS2 were at mixing ratios less than 25 pptv and less than 10 pptv, respectively. with a m i m u m mixing ratio of about lOOpptvand50 pptv. respectively. Carbonyl sulfide intercomparisons were at mix- ing ratios between 400 and 600 pptv. Measurements were internpared irom data bases amtrmbd from time periods of simultaneous or overlapping measurements. Agreement among the COS techniques averaged about 5%. and individual rnawwmm were generally within 10%. For H2S and at mixing ratio greater than 25 pptv, the instnnnents agreed on average to about 15%. At mixing ratios less than 25 pphr the agreement was about 5 pplv. For CS2 (mixing ratios less than 50 pptv). two tectwtiques agreed on average to about4 pptv, and the third exhibitd a bias (Aativetothe other two) that varied in the range of3-7 pptv. CS2 mixirtg ratios overthe ocean east of Natal as measured by the gas chranatograph-mass spectrometertechnique were onty afew pptv and were bedowthe detection limits ofthe 0QhertwotechniqUes.The CITE 3 dam am WedtoesQnatetheanrentunCertainty~withakaaft measwementsof Cos, H2s, andcs2mthemnotetroposphere.
rhrthor (Hemer)
National Aeronautics and Space Administration.
(HTN-95-91856) CopyrieM
chromatograph using flame . detection (COS, H2s. and
(COS and m). end
A95gOMS'
AN lNTERCOMPARlSON OF INSTRUMENTATION FOR TROWSPHERIC MEASUREMENTS OF DIMETHYL SULFIDE: AIRCRAFT RESULTS FOR WNCENTFIATlONS
GERAU) L. GREGORY NASA. Lensley Resesrch Center, Hanp ton. vk US, UNDA S. WARREN NASA. Langley Researdr Center, m, VA US, DOUGLAS D. DAWS Gamgh h#it~@ of Tech- -. Atlanta. GA, US. MEINRAT 0. ANDREAE Max--- 1- fur Chemie. Maim, Germany, ALAN R. BANDY Drexel U h m . Philadelphia, PA, US, RONALD J. FEREK University of W m m r . Seattte, WA. US, JAMES E. JOHNSON N O M b- a a , WA, US, ERIC S. SMTZMAN University of Miami. W, FL, us. and DAVID J. COOPER University of Nliami, Miend, FL. US
Research Center. Hampton, VA.
AT THE PARTS-PER-TRILLION L E V U
Journal of Geophysical Research (ISSN 01484227) vol. 98, no. D12 December 12,1993 p. 23,373-23.388
This paper reports resub from NASA's Chemical Instrumenta- tion and Test Evaluation (CITE 3) during which airborne measur%- ments of dimethyl sulfide (DMS) from six instruments were intercanpared.RepresentedbythesixinsmnnemsamthreefLBlda- mentally different detectm . principies (name phatomebic. mass spectrometric, and electran capture after fluorination); three cdlec- t i on tp~n t ra t i on methods (cryogenic. gold wod absorption. and poiymer absorbent): and three types of oxidant sctubbers (soli phase alkaline. aqueous reactor, and cotton). The measuremenS were mede ov8r the Attantic Ocean in 1989 during f l i from NASA's Wallops Right Center, Wfginia, and Natal. Brazil. The maiOrity of the kWtCOmpaf&OtlS are et W S mixing ratios less than 50 pptv. Results show lhat insznrment agreement is ofthe order of afew pptvfor mixing ratios Less than 50 pptvand to within ebwt 15% above 50 pphr. Statistically sigdkmt (95%confidence)measurementbiaseswerenotedemongsomeof the techniques. However. in all cases, any bias is small and within the accuracy of the measurements and prepared DMS standards. lhw,we c o n d u d e t h a t t h e t s c h n i q u e s ~ duringClTE 3 provideequaUyvalid measurementsof DMS in the rangeofafew pptv to 100 pphr (upper range of the intercomparisons).
Author (Hemer)
(HTN-95-91857) CopyrigM
A9580860 DYNAMICS OF AIRCRAFT EXHAUST PLUMES IN THE JET- REGIME B. KAERCHER Univ. Muemhen. Freising, Germany and P. FABIAN Uriiv. Muenchen, Freising, G e m y Annales Geophyslcae ' (ISSN 0992-7689) vol. 12. no. 10-11 November 1994 p. 911-919
A- . m o d e l ~ g t h e t w o d m m i o n a l , h n b u - lent mixing of a singie jet of exhaust gas from aircraft engines with theambientatmosphereispresented.TheundertyingassumptiMIs and governing equations are examined e supplemented by a disarssion of analytical solutions. As an appbcafion . ,thejetdYnam- icsof a B747-400aircraft~ne in -and its dependence on key parameters is investigated in detail. The computer code fw this dynamicalmodelis- . fastandcan~becoupled to complex chemical and nticrophysical models in adertoperform amp&m&w studbs of atmosphericeffectsfrom aircraft exhaust emissions in the Jet regime. -(-r)
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A9540861 MODELING OF AIRCRAFT EXHAUST EMISSIONS AND INFRARED SPECTRA FOR REMOTE MEASUREMENT OF NITROGEN OXIDES K. BElER DLR. Oberpfaffenhofen, Germany and F. SCHREIER DLR,Oberpfaffenh&n.Germany AMfalesGeophyslcee . (ISSN oss2-768!3) vol.12,n0.10-11 Nowrmber1994 p.920-943 (HTN-95-51276) Cowrigm
lnfrared(IR)tnok&rspedrosoopyisproposedtoperformed remote measurements of NO(x) concentrations in the exhaust plume and wake of aircraft. The cOmputer model NIRATAM is
exhaust plume and to generate kw resolutron ' IRspectreand
High-- ' IRspectraoftheplume,indudingaBnospheric absorptionand~.are~imuletedusingthemolearlerfhre-by- line radiation model FASCODE2. Simulated IR spectraofa Boeing
the jet regia ofthe exhaust pima am pmsmted. Anunberd
beck-
determine N O ~ ~ p ~ m the plume.ThepossUWyof
eppli to SimUhtB the ptlysw and chelnid properties ofthe
syntheticalthemralknagesoftheaircraftinbnaturalsumnndings.
747-400at~altitudeforctifferenta%ialandredialposibknsin
specbal LnesdNOcanbeidenWied mowbedisakmurxed - f m n linea of other exhaust gases and the natural abnogphenc . grwndintheregiocrerwnd52nriaons.Theseliicanbeusedto
measuringnitrogen dioxide No2 isatsodiscussed briefty. elthough m e a s u r e m e n t s m o u t t o b e ~ . lesslikelythanthoseof No.ThisfeasibiMystudycompilesfundame~da;E8foftheopdical
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and radiometric design of an airborne Fourier transform spectrom- eter and the preparation of in-flight measurements for monitoring of aircraft pollutants. Author (Herner)
A9540862 CHEMICAL COMPOSITION AND PHOTOCHEMICAL REACTIVITY OF EXHAUST FROM AIRCRAFT TURBINE ENGINES C. W. SPICER Battelle, Columbus, OH, US. M. W. HOLDREN Battelle, Columbus, OH, US, R. M. RlGGlN Eli Lilly and Company, Indianapolis. IN, US, and T. F. LYON General Electric Company, Evendale, OH, US Annales Geophysicae (ISSN 0992-7689) vol. 12, no. 10-11 November 1994 p. 944-955 (Contract(s)/Grant(s): FO8635-82-C-0131)
Assessment of the environmental impact of aircraft emissions is required by planners and policy makers. Several areas of concem are: (1) exposure of airport workers and urban residents to toxic chemicals emitted when the engines operate at low power (idle and taxi) on the ground; (2) contributions to urban photochemical air pollution of aircraft volatile organic and nitrogen oxides emissions from operations around airports; and (3) emissions of nitrogen oxides and particles during high-altitude operation. The environ- mental impact of chemicals emitted from jet aircraft turbine engines has not been firmly established due to lack of data regarding emission rates and identities of the compounds emitted. This paper describes an experimental study of two different aircraft turbine engines designed to determine detailed organic emissions, as well as emissions of inorganic gases. Emissions were measured at several engine power settings. Measurements were made of de- tailed organic composition from C-l through C-17. CO, CO2. NO, NO(x) and polycyclic aromatic hydrocarbons. Measurements were made using a multi-port sampling pro be positioned directly behind the engine in the exhaust exit plane. The emission measurements have been used to determine the organic distribution by carbon number and the distribution by compound class at each engine power level. The sum of the organic species was compared with an independent measurement of total organic carbon to assess the carbon mass balance. A portion of the exhaust was captured and irradiated in outdoor smog chambers to assess the photochemical reactivity of the emissions with respect to ozone formation.
Author (Hemer)
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A9540867 POTENTIAL EFFECTS ON OZONE OF FUTURE SUPERSONIC AIRCRAFV2D SIMULATION R. RAMAROSON Office Nat. d'Etudes et de Recherches Aerospatiales, Chatillon, France and N. LOUISNARD Office Nat. d'Etudes et de Recherches Aerospatiales. Chatillon, France Annales Geophysicae (ISSN 0992-7689) vol. 12, no. 10-1 1 November 1994 p. 986-995 Research sponsored by the French Ministry of Transport and the Committee Avion-Ozone
In a previous work, the stratcspheric effect of a future supersonic aircraft fleet on ozone has been simulated, by using a photochemical diffusive 1 D model and a2D photochemical, radiative dynamical model. The fleet scenario was defined by Aerospatiale and Snecma for a current technology Mach-2 aircraft the models were limited to simpli- fied homogeneous phase reactions. The results indicated a global ozone decrease of about 1.5% in steady-state conditions. Now the 20 model has been upgraded and includes the classical heterogeneous -s with pdar Stratospheric Clouds (Psc) and aerosol. It also takes into account the natural or anthopogenic evolution of the back- ground atmosphere. The scenario has been optimized to meet more reelistic conditions. Thus, new results are presented. The main condu- don concerning the calculated impact of a r e a t i i fleet forthe next 20- 50 years is still weaker than in the previous work: the decrease for the total ozone would always be lower than 0.3%. These results are commented, with the help of a parametric study, pointing out the importance of the background atmosphere and especially the total chlorine loading and the aerosol surface area. Author (Hemer)
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A9540868
AIRCRAFT: EFFECTS OF THE EMISSION SCENARIO G. PlTARl Univ. degli Studi, L'Aquila, Italy, S. PALERMI Univ. degli Studi, L'Aquila, Italy, and G. VlSCONTl Univ. degli Studi, L'Aquila, Italy Annales Geophysicae (ISSN 0992-7689) vol. 12, no. 10-11 November 1994 p. 996-1 005 Research sponsored by the Italian Space Agency (HTN-95-51283) Copyright
A pholochemical-transport two-dimensional model has been Used to assess the impact of a projected fleet of high-speed stratospheric aircraft using different emissions scenarios. It is shown that the presence in the background atmosphere of nitric acid trihydrate aero- sols is responsible for a lower stratospheric denoxification in addition to that caused by the sulfate aerosol later. This has the effect of further decreasing the relative role of the odd nitrogen catalytic cyde for ozone destruction, so that the lower stratosphere is primarily controlled by chlorine species. The effect of aircraft injection of nitric oxides is that of decreasing the level of CIO, so that the lower stratospheric ozone (below about 20-25 km altitude) increases. The net effect on global ozone is that of a small increase even at Mach 2.4, and is enhanced by adopting emission scenarios including altitude restriction at 15 or 18 km. Reductions of the emission index (El) of nitric oxides below relatively small values (about 15) are shown to reduce the aircraft- induced ozone increase, because of the associated smaller decrease of CIO. This conclusion is no more valid when the emission index is raised at the present values (about 45). Author (Hemer)
AS-80908 IDENTIFICATION OF AVIATION WEATHER HAZARDS BASED ON THE INTEGRATION OF RADAR AND LIGHTNING DATA ANDREW D. STERN NOAA, Sterling, VA, US, RAYMOND H. BRADY, 111 NOM, Sterling, VA, US, PATRICK D. MOORE NOAA, Sterling, VA, US, and GARY M. CARTER NOAA, Bohemia, NY, US American Meteorological Society, Bulletin (ISSN 0003-0007) vol. 75, no. 12 December 1994 p. 2269-2280
The National Weather Service (NWS) Eastem Region is canying out a national risk-reduction exercise at the Baltimore-Washington Forecast Office in Sterling, Virginia. The primary objective of this p@ect is to integrate information from remote sensor technologies to produce comprehensive stateof-the-atmosphere reports that promote aviation safety. Techniques have been developed and tested to identify avia- tionoriented hazardous weather based on data from conventional radars, a national lightning detection network, and collateral observa- tions hwn new Automated Surface Observing System (ASOS) sites that are being deployed throughout the nation. Integration of informa- tion from several pmducts generated by the new Doppler radar at Sterling with lightning network data is being pursued for the second phase of the project. The National Weather Service will determine the viability of this approach to generate products to routinely supplement the information provided by ASOS on either a national or a local basis.
Author (revised by Hemer)
A9561648 AERODYNAMIC PARAMETERS OF CROP CANOPIES ESTIMATED WITH A CENTER-OF-PRESSURE TECHNIQUE QIN WENHAN Academia Sinica. Beijing, China Acta Meteorologica Sinica (ISSN 0577-6619) vol. 52, no. 1 February 1994 p. 99-106 In CHINESE
The Center-of-Pressure technique (CPT), originally proposed by Thorn in 1971, is firstly verified in the field, based on the canopy architecture and microclimate data of four crops. The comparison of U* estimated by CPT with that by eddy-correlation method shows that CPT not only works well in the field, but also gives more steady and accurate results, which are hardly affected by atmospheric Stratification stability, than that of the logprofile fitting method which is frequently used in practice. In addition, a physical model for directly calculating d is approximately developed. The results yield
IMPACT ON OZONE OF HIGH-SPEED STRATOSPHERIC
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GEOSCIENCES 13
that the ratio of d. z(sub 0) to h. in general, varies with the canopy structure, turbulence intensity and the stability of flow above and within the canopy: dm increases with the increase of alpha (the relative height of the maximum foilage density layer) and gamma(& u) (the wind extinction coefficient withiin canopies). Only for short stem crops and when their canopies reach the moderate foliage density and stable structure. d and z(sub 0) approximately and steadily appmach to 0.64 h and 0.08 h, respectively. Besides, with verysparse or tall CIUPS. the fairly large stresses at the soil surface and miabilii of m undoubtedly inftuence the accuracy of CPT to a certain extent Author (&mer)
N9W421V# NOI~I Oakota W.. orand FOIIC% ND. Oept d At- mospheric sciences. PRELIMINARY ANALYSIS OF UNIVERSrrY OF NORTH DAKOTA AIRCRAFT DATA FROY THE FIRE CIRRUS I F 0 4 FiMl Report MICHAEL R. POELLOT 30 Mar. 1995 14 p (cOntraet(s)/Grant(s): NAG1-1351)
A01 The stated goab of the Fim ISCCP (International satellite
Cloud Clirnatchgy Project) Regional Experiment (FIRE) are 'bo promote the developmentofinpnwed doud and radiatiar param- eterizationforuse in dimatemodels. andtoprwideforsssesJment and improvement of ISCCP pmjeds'. FIRE Phase 2 has focused on the formation, m a i n t e r n and dissipation of am and marine stratoaanulus cloud sy!aems. These abjemes have been- P ~ t h m w h a a m b M m ' of modeling, extended-bime obser- vations and intensive field abscnvation (IFO) periods. The wotk underthis grant was assodated with the FIRE C i m IF0 2. This fieM measurement program was condllcted to obtain obsamwm ' o f cirmscknxlsystemsonamngeofscalesfromthesynaptictothe -*utilizing- meawrementsfromavarietyof grwnd-based. satellite sndairbame plafforms. 6ycombkring these remote and insitumeasmmmtsamorecompletepichaeddrnw systems can be obtained. The rde oflhe UniveFsity of North Dakota in Phase 2 was three-fdd: to collect in situ mbo@ysA . dataduring the Cirrus IF0 2; to process and archive these data; and to collaborate m analyses of IF0 data. This report will summarire the
& periwmed - ~ gm detailed description of the data sets available and of the analyses arecontarned ' in the Semi-annual Status Reports wbmitbd to NASA. Derived from text
N95-24274.1 National AeronauticS and Space Administration, Washington. Dc. THE ATMOSPHERIC EFFECTS OF STRATOSPHERIC AIRCRAFT: A FOURTH PROGRAM REPORT RICHARD S. STOLARSKI. ed. (National Aerwrautics and Space Adndnistretion. Goddard Space f l i center. Greenbelt. MD.). HOWARD L. WESOKY. ed.. SEVEN C. WOFSY (Hatvard W.. cambridge, MA.), A. R. RAVISHANKARA (!Word oceanic and A- ' Administration. Boulder, CO.), JOSE M. RODRIGUEZ (Atmospheric and Environmental Research, h., Cambridge, MA), and WlLLlAM L. GROSE (National Aeronauaics and !&ace AdMistrabjon. -ley Research Center, Hampton, VA.) Jan.
Thisdoarmentp~thefourthreportfrantheAtmospheric Eff- of stratogpheric Aircraft (AESA) component of NASA's High- - Research Program (HSRP). Market and mctmbgy amsid- ~ralionscontinuetoprovideanimpetusforhighapeedcivytnnsport research.ArecentAESAintemassessmerdreportandareviewof - have shown that considera#o ' stigedsts
has been des$ned to devekp the body d sckM=.k#Uuledge ~ r y f o r t h e e v a l u a t i o n o f t h e i m p s c t o f ~ aircrafton the atmosphere. The first ~rogram report prcrsented the besic W m end for AESA. This fourth report comes after the hlbI&fI assesSmentand sets forth dimctionsfwthe 1995
(NASAGR-198038; NAS 126:198038) Avail: CAS1 HC AWMF
&-d fiidirW &
1995 234p (NASA-RP-1359 NAS 1.61:1359) Avail: CASI HC A l l M F A03
ebwtthepossiblsimpactdeiraanonthES.ThoAESA
ment at the end of AESA Phase 1. It also sets forth the go& and directions for AESA Phase 2, as reported at the 1994 Atmospheric Effects of Aviation Project (AEAP) annual meeting held in June. The focus of the Phase 2 effort is to obtain the best possible closure on the outstanding problems identified in the interim assessment and NASAMRC review. Topics discussed in this report indude how high-speed civil transports (HSCT) might affect &&osphenc ozone, emissions scenarios and databases to assess potential atmospheric effects from HSCT's. calculated resutts from 2-D zonal mean models using emissions data, engine trace comtituent measurements. Aumor
-2- USING DIGITAL FILTERING TECHNIQUES AS AN AID IN WIND TURBINE DATA ANALYSIS TERESA YOUNG Nov. 1994 9 p FVesenW at the A I M Regim 5 Student Conference, Ft. cdlins. CO. 21-24 Apr. 1993
National ReneweMe Energy Lab., Golden. co.
(C~~traCt(~)/Grar~t(~): DE-AC36-83CH-10093) (DE9441 1862; NREVTP-441-7077; CONF-9304280-1) Avail: CAS1 HC A02NF A01
diffiadtduetotheenormityofthe database. Inthecaseafawind Reseam bnrdving very large sets of digw data is often
anbineoperatktgundervaryhgtmimmmW~ . ,detemtbr- ingwhichdetearereplr rsen$l t iveof theblade~ . a n d ~an3duetotransientflowingestianeftecsoremrrsminstnt- -,operation,anddata- . i s a f ~ a n c e m t o reseamhers. The National Renewable Energy L&mUory in Qdden. Cobradocollectedemdataonadammnd . homontalads windmWne(HAWT)aningabnbinetestprojectcalledtheCom- bined Experiment. A principel objmive ofthisexpwimmtwasto provide a means to predict H A W aerodynamic, mechanical . .and e l e c t r i c a l o p e ~ k a d s b a s e d u p o n ~ ~ o f a e r o d y - narrdcperlamancerelatedtoMadedesignandinffowcorditions . In acdlaborativeeffortwithlheAerospaceEngineeringDeparbnentat the univerrity of colorado at Boutder, a team of regearchers has evolved and utilized various digital filtering techniques m analyzing the data from the Combined Experiment. A preliminary analysis of the data 88t wasperformedtodetermine howtobestepproachthe -The feduceddatasetemphasizedselectionofinRawcondi- tionswrchthattheaerodynanricdatacouldbeampareddireclfyto rrindbunneidsiaobiainedfior~sameairioiidesignmsusediwthe
H A W S blades. it will be shown that this reduced data set hss yieMedvelid,fePduc- * msuHsthetasimpleaveragingtechique or arandam selection approach cannot achieve. These findhrgs prwideasteMebaseliagainstwhichoperationalHAWTdatacan becornpared. DOE
N95-248821 National Renewable Energy Lab.. Golden, CO. NREL AlRFOlL FAMILIES FOR H A W S J. L. TANGLER and D. M. SOMERS (Airfoils, Inc., State College. PA.) Jan.1995 l o p (ca\tract(s)/G~s): OE-AC3M3CH-10093) (DE- NRELffP-442-7109) Avail: CAS1 HC AOmF A01
The developmentofspedal-pwposeairfailsforhorizontal-rvds wind turbines (HAWS) began in 1984 as a joint effort between the National R e n e w Energy bboratory (NREL), forme* the Sder Energy Research InstiMe (SERI). and Airfoils, IncoqxmM. Since that time sew airfoil farrdlies hmve been designed for v a b size rotors usinglhe Eppler Aim Design and Analysiscode. Agenwal performance requirement of the new airfoil families is that they exhibit a maximum l i coefficient (c(sub 1.m)) which is reletivey insensitive to roughness effects. The airfoil temilies adlhss the - 0 f s w - W u - d . v . *and- wind bn- bines. For&!aU-regulatbdmiwsadoni.betlerpeakgorwer thtwgh the design of tip airfoils that regbrdn the muximum lift
~ m a x i m u m l i f t c o e f f i a e n t . aWawsheuw,d more swept disc area for a givem gemator size. Also. for stall- regutated rotors. tip airfoits with high thickness are used toaccom- modate overspeed control devices. For variable-pitch and variable-rpm rotors. tipairfoilshavingahigh maximum liftcoeffident lend themselves to lightweight blades with kw sdidi. T i airfoits
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13 GEOSCIENCES
I
having low thickness result in less drag for blades having full-span pitch control. Annual energy improvements from the NREL airfoil families are projected to be 23% to 35% for stall-regulated turbines, 8% to 20% for variable-pitch turbines, and 8% to 10% for variable- rpm turbines. The improvement for stall-regulated turbines has been verified in field tests. DOE
N95-25110 EG and G Energy Measurements, Inc., Goleta, CA.
PHOSPHORTEMPERATUREMEASUREMENTS BRUCE W. NOEL (Noel Associates, Espanola, NM.), W. DALE TURLEY. and STEPHEN W. ALLISON (Martin Marietta Energy Systems, Inc.. Oak Ridge, TN.) 1995 24 p Presented at the Remote Temperature Sensing Workshop, Cleveland, OH, 27-28 Oct. 1994 Limited Reproducibility: More than 20% of this document may be affected by microfiche quality (Contract(s)/Grant(s): DE-AC08-93NV-11265)
CAS1 HC A03 The thermographic-phosphor (TP) method can measure tem-
perature, heat flux, strain, and other physical quantities remotely in hostile and/or inaccessible environments such as the first-stage turbine components in turbine engines. It is especially useful in situations in which no other known method works well. This paper is a brief review of engine tests that demonstrated the utility of the TP method. For the most part, the results presented here are discussed only qualitatively. The papers in the bibliography describe these and other experiments and results in detail. The first viewgraph summa- rizes the many desirable features of the TP method. The second viewgraph describes TPs, and the third summarizes how the TP method works. To measure singie-point temperatures in turbine- engine applications, we use the decay-time method, which depends on the fact that the luminescence following an impulse of ultraviolet excitation decays, with a characteristic decay time that is a mono- tonically decreasing function of temperature over some range of temperatures. The viewgraph is a set of calibration curves showing the behavior of some useful emission lines for ten important TPs. Consider LuP04:Eu as an example. Below the 'quenching' tempera- ture near 900 K, the decay time is nearly constant. Above it, the decay time decreases exponentially with the temperature. This strong functional dependence means that one can have a fairly large error in the lifetime measurement, as in environments with poor signal-to-noise ratios (SNR's), yet still obtain high accuracy in the temperature measurement. Our more-recent data up to 1900 K show the same behavior. DOE
TURBINE-ENGINE APPLICATIONS OF THERMOGRAPHIC-
(DE95-003625; EGG-1 1265-301 1; UC-706; CONF-9410259-1)A~ail:
N95-26005# Radian Cop., Research Triangle Park, NC. NITROGEN OXIDE EMISSIONS AND THEIR CONTROL FROM UNINSTALLED AIRCRAFT ENGINES IN ENCLOSED TEST CELLS: JOINT REPORT TO CONGRESS ON THE ENVIRONMENTAL PROTECTION AGENCY - DEPARTMENT OF TRANSPORTATION STUDY Find Report Oct. 1994 196 p Prepared in cooperation with Energy and Environmental Research Corp., Durham, NC Sponsored in coopera- tion with FAA (Contract(s)/Grant(s): EPA-68-D1-0177)
The report was submitted to the Congress under mandate of Section 233 of the Clean Air Act Amendments of 1990. The report provides a characterization of aircraft engine test cells and their emissions. Various NOx control technologies that have been ap- plied to combustion sources other than test cells are examined in the report for their applicability to test cells. Effects of NOx controls on the aircraft engine and aircraft engine test are also addressed. Finally, annual emissions from test Cells are estimated and com- pared to total NOx emissions in the applicable ozone non-attainment areas. NTlS
(PB95-166237; EPA/453/R-W068) Avail: CAS1 HC AWMF A03
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N95-26090# National Renewable Energy Lab., Golden, co. WIND TECHNOLOGY DEVELOPMENT: LARGE AND SMALL TURBINES R. W. THRESHER, S. M. HOCK, R. R. LOOSE, and P. GOLDMAN Dec. 1994 13 p Presented at the Power Generation Conference, Orlando, FL, 7-9 Dec. 1994 (Contract(s)/Grant(s): DE-AC36-83CH-10093)
HC A03/MF A01 Wind technology has developed rapidly over the last decade
with the design and development of advanced systems with im- proved performance, higher reliability, and lower costs. During the past several years, substantial gains have been made in wind turbine designs, lowering costs to an average of SO.O%Wh while further technology development is expected to allow the cost to drop below $0.04/kWh by 2000. As a result, wind is expected to be one of the least expensive forms of new electric generation in the next century. This paper will present the technology developments for both utility-scale wind turbines and remote, small-village wind tur- bines that are currently available or in development. Technology innovations are being adapted for remote and stand-alone power applications with smaller wind turbines. Hybrid power systems using smaller 1 to 50 (kW) wind turbines are being developed for non-grid- connected electrical generation applications. These village power systems typically use wind energy, photovoltaics, battery storage, and conventional diesel generators to power remote communities. Smaller turbines are being explored for application as distributed generation sources on utility grids to supply power during periods of peak demand, avoiding costly upgrades in distribution equipment. New turbine designs now account for turbulence-induced loads, unsteady aerodynamic stall effects, and complex fatigue loads, making use of new technology developments such as advanced airfoils. The new airfoils increase the energy capture, improve the operating efficiency, and reduce the sensitivity of the airfoils to operation roughness. Electronic controls are allowing variable rotor speed operation; while aerodynamic control devices, such as aile- rons and flaps, are used to modulate power or stop the rotor in high- speed conditions. These technology trends and future turbine configurations are being sponsored and explored by the U.S. Depament of Energy's Wind Energy Program. DOE
(DE95-000286; NREUTP-440-7224; CONF-941210-2) Avail: CAS1
15 MATHEMATICAL AND COMPUTER SCIENCES
includes mathematical and computer sciences (general); computer operations and hardware; computer programming and software; computer systems; cybernetics; numerical analysis; statistics and probability; systems analysis; and theoretical mathematics.
A9579238 QUANTITATIVE COMPARISON BETWEEN INTERFEROMETRIC MEASUREMENTS AND EULER COMPUTATIONS FOR SUPERSONIC CONE FLOWS T. A. W. M. LANEN Delft Univ of Technology, Delft, Netherlands, E. M. HOUTMAN, and P. G. BAKKER AlAA Journal (ISSN 0001-1452) vol. 33, no. 2 February 1995 p. 210-216 refs
Dual-reference-beam, plane-wave digital holographic interfer- ometry has been applied to obtain quantitative Interferometric data in the three-dimensional Supersonic flow over circular cones. The interferometdc data are compared quantitatively on a twoaimen- sional grid with the postprocessed results of an Euler code that simulates three-dimensional inviscid compressible flows. The com- parison invdves two different combinations of cone angle and angle of incidence. The maximum deviations between the interferometric data and the numerical data are found to lie in the error interval (-2.0%, +2.0%). Author (El)
(BTN-95-EIX95222650782) Copyright
MATHEMATICAL AND COMPUTER SCIENCES 15
A95-80405' Jet Propulsion Lab., California Inst. of Tech.. Pasa- dena, CA. THE CASSINI SPACECRAFT: OBJECT ORIENTED FLIGHT CONTROL SORWARE JOHN C. HACKNEY Jet Propulsion Lab.. California Inst. of Tech.. Pasadena, CA. US, DOUGLAS E. BERNARD Jet Propulsion Lab., California Inst. of Tech., Pasadena, CA. US, and ROBERT D.
dena, CA, US In ouidanoe and control. 1993; Annual Rocky Mountain Guidance and control CMlferenCe, 16th. Keystone. CO, Feb. 6-10.1993. A95go389 San D@o. CA Americen Astror\au- t i c a l ~ ( ~ i n t h e A S t r 0 n a u b 'cal Sciences. Vol. 81) (Issruoo65-3438) 1893 p.211-236 CoPyriaM
ThecasshiAt t ihdeandAt i imwhcamd~(AAcs) isrespons#efor . . andcamdlingIhespaceaaRatlihde
poinbjnsduing vekcitychange maneuvers.The 12yearmission sle. long Iumd-m lighttime. and - periods of- - conbinuousgrandcontroldriveIheAACSIlight-designinthe d r e c t i a s o f ~ , f a u # t d e r a n c e . a n d ~ b - d a t e p t a m e d u p g r a d e s i n ~ n l e ~ A A C S r n S o m w e r e i s depictedininxeasingkwelsofdebilusingaCoaax!Diegram Architechrre Diagams @e.. Depmdmq Diagrams). an Object Dis gramforeachobjea,andaStatechart(i.e..Siat%TmsilionDiagmn) foreachobjed.Thedeteilcordeinedinthediagramsk~and refined during lhe Fkquimnem adDesignPhesesdmSllb- ~andsonwareDevekpnntExamplesdallihedagamsas weUastheuiteriaforobjectsdedion,the~dsmed-m& a n d t h e e a s e o f m o d f y i n g i h e d e s i g n t o - ~ h scopearedesaibed. Author (revised by Hemer)
RASMUSSEN Jet PropUlsion Lab., California Inst. of Tedr., Pasa-
indueli.le- x, antema pointing, end thnst-
A9541079 ON-UNE LEARNING NONLINEAR DIRECT NEUROCONTROUERS FOR RESTRUCTURABLE CONTROL SYSTEMS MARCEUO R. NAPOLKANO West Virgma Univ, Morgantown, WV, United States, SrrVE NAYLOR. CHARLES NEPPACH. and VAN CASOORPH Journal of Guidance, Control. and Dynanrics (ISSN 0731-5090) vol. 18. no. 1 January-Febtuafy 1995 p. 170- 776 refs (BTN-95-EIX952426707SS) CopyrisM
Thispaperdescribesanimovatjvaapproachtothe problemof the on-line determination of a control taw in order to achieve a dynamic reconfiguration of an aircraft that has sustained exkmsive damage toa vital control wrfeoe. The approach consists ofthe use of on-line learning neural nehrvork controllers that have the cap&bility of bringing an aircraft. whose dynamics can become unstable after a substantial damage, -to an eguifibfium cadition.This god hasbeenachievedthroughthe useofaspecifictrainAlgaJpith. h8XlendedbaCk-p ' algorithm (EBPA). and proper#dec- tion of the a m i i w t h e nectral network controllefs. The EBPAhasracentlyshom,rcwnarkableimprorementsmrtheback- propagation algorilhm in t e r n of convergence tbne and kcel minimumproblems. The methodology is iUustraEedthroughanonli ear dynamic sirnulabion ofa typical combat maneuverfora high- -airaaft Author (El)
A9561081 APPUCATION OF DIRECT TRANSCRIPTION TO COMMERCIAL AlRCRAFr TRAJECTORY OPtlMKATlON JO" T. BETTS Boeing Computer services. Seatiie. WA. United S ~ ~ = ~ ~ ~ E V I N J . C R A M E R ~armalof~jdma, * Cadd. ad DVnemics(ISSN0731-5090) VOl.18.n0.1 JanuSry-F&~~~1985 p. 151-159 refrs (eTN-ss-EIX9524267om) cowrgm one of the m e f f e c t i v e nunerical techdqmforme sokrtion oftraiecaMyoptimhation and OptimalCfJntrd problemsisthe direct trarrsMiptionmethod.Thisapproachcombinesa -Program- mhrsalgorithmwithadisaetiration o f t h e ~ d y n e m i c s .
rewfblng mathematical prograrrming P- is 8ohfed
using a sparse sequential quadratic pr0grananiW algorithm. the technique produces sobtions very rapidly and has de-& Considerable robustness when applied to atmospheric and orbital trajectories. This paper describes the application of the direct tmnscriptiontshnquetohoptimaldesignof acommeraal .airagft traiectory, subject to realistic constmints on the aircraft flight path. A primary rem of the paper is todemomtmte thatthe tmmmpbm fomwlation leads to a very natural trea!mnt of realistic Federal Aviation Administration (FAA) imposed path combmts ' withina h@fidelitysimulation. Asecondimportantrasuft istod€mmwaw that model- tabular data using WTlOoth approximations signifi- canny improves the speed of convergence. - (El)
A%-61oIu) IMPACT OF NEAR-COINCIDENT FAULTS ON MGITAL FLIGHT CONTROL SYSTEMS CRlSTlAN CONSTANTINESCU Duke Univ, Dumam, NC. United States J O U ~ of Guidence. control. and Dynarrrics (ISSN 0731- 5090) Vd. 18, no. 1 January-February 1995 p. 102-107 refs (BTN-95-EIX95242670759) COpyrQht
. .
Theeffectsofnearcoinddent fadtsmustbetakenintoaaxnsrt indesisninghighlyreliaMedigitaltli#ltcon$dsy5tems.lnthispaper
faultfacemaredefived. basdon thebehaviaal decanpogborJ aggregalionwhniqueandMarkov~oftheCARE3coverage model. Parameters ofhe model are assunedtobeeltponenOially diibuted.The innuence offeultdetecwl rate, faultdaec&wy* enor production and propagation rates, 8mu . .and t l a n s h t t a u l v e m n ~ . fateonthenearcoinddent Wfeo tors is^ . Evenbie#y, a homogeneous. continuas-lkne Markov chain is used tor dsdbing a W modular redundant (TMR) system. The nearaincbnt fauftfaclorsareemployedtor analyzing the effect of the interfering faultson reiiabisty ofthe TMR oomputer. system r e l i l i and nearcoincident fault unreliabii are platted as functions of mission time, fault detectability, and weight of permanent and eensientfaultlem. The impect of near- ~nttaultscenbecurtiedbyincreasingfaultdetectability.That impact is also lower when the percentage of transients is higher. - (El)
M i i m ROBUST DYNAMIC INVERSION FOR CONTROL OF HIGHLY MANEUVERABLE AIRCRW JACOB REINER Univof M i Minneapolis, MN. U n i i States, GARY J. BALAS, and WILLIAM L. GARRARD Joumal of Guidance,
FebNary1995 p. 18-24 refs
Thii paper presenk a methodology for the design of f l i controllers fwairaaftoperating over ~ Q B ranges of angle of attadr. The-isacombinationofdynamicinversionandstnrc- hrred singutar vahm (mu) synthesis. An imer-loop contrdler, de-
This innerkopamtdler ledcs gmmbd rdxmmssto uncemn- tiesinthesystemmodelandthemeasurements;therefore,arobust. linear outer-loop controller k designed using mu symhesis. This cMrdler minWzes the weightd H(sub infinity) norm ofthe 8m)r
between the aimraft responseand the spedfied m g quality model while maximhing mblstness to model uncertainbies and sensor noise. The mehdologyisappliitothe design of apitch ratecanmandsystemforkngihrdinalcontrdofahigh-perfonnance a i r r r e f t N o n l i ~ . demonstrag, thatthe conbuuer setis- fies handling SWW requirements. provideagoodtraddngofPi&Jt inputs. and exhibits excellenttahstms over a wide range of anglesofaUackandMachnunber.Thelkrearcontroiierrequiresno scheduling with flight cortdbm. Aumor (El)
. . d c # r e d - f a m ~ f o r ~ a n d w d t r w s i e n t n e e r c o n a d e n t ..
Contrd, and Oynamics (ISSN 0731-5090) vol. 18. M). 1
( B T N - S S - E I X ) Copmht
Jan-
-by-- ,isusedtoiineeritet--.
A95-01153 FAULT DETECTION IN MULTIPROCESSOR SYSTEMS AND ARRAY PROCESSORS MARK G. KARPOVSKY Boston Univ cdl of Engineering, Bosttm.
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15 MATHEMATICAL AND COMPUTER SCIENCES
MA, United States,TATYANA D. ROZINER, and CLAUD10 MORAGA IEEE Transactions on Computers (ISSN 0018-9340) vol. 44, no. 3 March 1995 p. 383392 refs (BTN-95-EIX95242679097) Copyright
Off-line testing of large multiprocessor networks or VLSl chips with many outputs requires a large volume of memory for reference data storage. Space compaction combined with time compression of test responses can essentially reduce an over-head required for testing and diagnosis. In this paper, we discuss the problem of optimal design for space compressors (compactors), to minimize the number of observation points for detection of single faulty components in multiprocessor networks. A space compactor is assumed to be followed by a time compressor, to detect a fault not necessarily manifesting itself for a single test pattern. We formulate the rules of design for a space compaction matrix for the topology of the circuit-under-test (CUT) modeled by an arbitrary acyclic graph. Tree arrays and Fourier transform networks are considered as examples. The lower and upper bounds on the number of space compactor outputs are obtained, and optimal space compaction matrices are determined for above mentioned CUT topdogies. Simple procedures for design of off-line testing devices with built-in self-testing are presented. Estimations on a complexity of proposed designs are given. Author (El)
N95-25264V Air Force Academy, CO. APPLICATION OF NEURAL NETWORKS TO UNSTEADY AERODYNAMIC CONTROL WILLIAM E. FALLER, SCOTT J. SCHRECK, and MARVIN W. LUITGES (Colorado Univ.. Boulder, CO.) In JPL, A Decade of Neural Networks: Practical Applications and Prospects p 107-126 11 May 1994 Avail: CAS1 HC A03/MF A03
The problem under consideration in this viewgraph presenta- tion is to understand, predict, and control the fluid mechanics of dynamic maneuvers, unsteady boundary layers, and vortex domi- nated flows. One solution is the application of neural networks demonstrating closed-loop control. Neural networks offer unique opportunities: simplify modeling of three dimensional, vortex domi- nated, unsteady separated flow fields; are effective means for controlling unsteady aerodynamics; and address integration of sensors, controllers, and time lags into adaptive control systems.
CAS1
N95-25797'# Overset Methods, Inc., Los Altos, CA. THE COUPLING OF FLUIDS, DYNAMICS, AND CONTROLS ON ADVANCED ARCHITECTURE COMPUTERS Final Report, 1 Jun. 1994 - 31 May 1995 CHRISTOPHER ATWOOD May 1995 32 p Original contains color illustrations (Contract(s)/Grant(s): NCC2-799) (NASA-CR-197727; NAS 1.26:197727) Avail: CAS1 HC AOWF A01 ; 1 functional color page
This grant provided for the demonstration of coupled controls, body dynamics. and fluids computations in a workstation cluster environment; and an investigation of the impact of peer-peer com- munication on flow solver performance and robustness. The findings of these investigations were documented in the conference articles.The attached publication, 'Towards Distributed FluiddCon- trols Simulations', documents the solution and scaling of the coupled Navier-Stokes, Euler rigid-body dynamics, and state feedback con- trol equations for a two-dimensional canard-wing. The poor d i n g shown was due to serialized grid connectivity computation and Ethernet bandwidth limits. The scaling of a peer-&per communi- cation flow code on an IBM SP-2 was also shown. The d i n g of the code on the switched fabric-linked nodes was good, with a 2.4 percent loss due to communication of intergrid boundary point information. The code performance on 30 worker nodes was 1.7 (mu)s/pointliteration, or a factor of three over a Cray C-go head. The attached paper, 'Nonlinear Fluid Computations in a Distributed Environment', documents the effect of several computational rate enhancing methods on convergence. For the cases shown, the
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highest throughput was achieved using boundary updates at each step, with the manager process performing communication tasks only. Constrained domain decomposition of the implicit fluid equa- tions did not degrade the convergence rate or final solution. The scaling of a coupled bodylfluid dynamics problem on an Ethernet- linked cluster was also shown. Derived from text
N95-25803'# Texas Technological Univ., Lubbock, Tx. A BRIEF SURVEY OF CONSTRAINED MECHANICS AND VARIATIONAL PROBLEMS IN TERMS OF DIFFERENTIAL FORMS ROBERT HERMANN Planning 15 p Avail: CAS1 HC AOWF A03
There has been considerable interest recently in constrained mechanics and variational problems. This is in part due to applied interests (such as 'non-hdonomic mechanics in robotics') and in other part due to the fact that several schools of 'pure' mathematics have found that this classical subject is of importance for what they are trying to do. I have made various attempts at developing these subjects since my Lincoln lab days of the late 1950s. In this Chapter, I will sketch a Unified point of view, using Cartan's approach with differential forms. This has the advantage from the C-0-R viewpoint being developed in this Vdume that the extension from 'smooth' to 'generalized' data is very systematic and algebraic. (I will only deal with the 'smooth' point of view in this Chapter; I will develop the 'generalized function' material at a later point.) The material pre- sented briefly here about Variational Calculus and Constrained Mechanics can be found in more detail in my books, 'Differential Geometry and the Calculus of Variations', 'Lie Algebras and Quan- tum Mechanics', and 'Geometry, Physics and Systems'. Author
N95-258052 Texas Technological Univ., Lubbock, TX. HOW TO FLY AN AIRCRAFT WITH CONTROL THEORY AND SPLINES ANDERS KARLSSON In its Hierarchical Control and Trajectory Planning 108 p 31 Dec. 1994 Avail: CAS1 HC AOG/MF A03
When trying to fly an aircraft as smoothly as possible it is a good idea to use the derivatives of the pilot command instead of using the actual control. This idea was implemented with splines and control theory, in a system that tries to model an aircraft. Computer calculations in Matiab show that It is impossible to receive enough smooth control signals by this way. This is due to the fact that the splines not only try to approximate the test function, but also its derivatives. A perfect traction is received but we have to pay in very pea4 Control slgnals and accelerations. Author
NQ5-25894# Llnkoeping Univ. (Sweden). ASPECT ESTIMATION OF AN AIRCRAFT USING LIBRARY MODEL SlLHOUElTES A. IAUBERTS Jun. 1994 23 p (PB95-141834; FOA-C-30763-8.4.3.4) A01
This matching method uses a library of silhouettes of a model aircraft with 512 uniformly distributed orientations. The library con- tains silhouettes of aircraft aspects stored as chain code in a look- up table. Scaled model silhouettes are matched to a distance transform map of the object silhouette. The scaling is according to the apparent major diameter, being a relatively rotation invariant quantity. After translation to a common center of area, the silhou- ettes are rotated in discrete angular steps until best fit model-object. The best matched views. constrained within a small group of nearby aspect directions, are added vectorially using inverse fit errors as weights to yield an optimum aspect direction. The corresponding aspect angles define the model orientation, and therefore give an estimate of the object orientation. Optionally, radar gives position and velocity of the object, restricting the number of possible views. However, only the aspect matching method supplies the instanta- neous 3D orientation needed for accurate prediction of an evasive
In its Hierarchical Control and Trajectory 31 Dec. 1994
Avail: CAS1 HC AOWF
flight maneuver. NTlS
PHYSICS 16
N95-26085Y InstiMe for Computer Applications m Science and Engineering, Hampton, VA. CUMULATIVE REPORTS AND PUBUCATlONS THROUGH DECEMBER 31,1994 Final Report, 1975 - Doc. 1994 Hampton, VA NASA Mar. 1995 109 p
14472; RTOP 505-90-52-01)
A02 Thisdoaanentantainsacanplete list of InstiMefacOm-
puter Appliitiors in sdence and Engineering (CASE) repnts. SinwlCASErepatsareinmdadbbepreprintsofaItidesthatwill appear in joumels or conference pmadmgs . .thepublishedrefer-
. enceisindudedwhenitisavailable. Author
N95-26330 Polish Academy d scienoea. Warsew (pdand). tnst. of Basic Pmbiems of T-.
(contract(~yGr~M(~): NASI -1 9480; NASI -18605; NAS1-17070; Wl-17130; NAS1-15810; NAS1-16394; NAS1-14101; NAS1-
(NASA-CR-1950433 NAS 126:1!?5043) Avail: CAS1 HC MGIMF
ACTUATING SIGNALS IN ADAPTIVE CONTROL SYSTEMS [SYGNALY POBUDUWACE W ADAPTACYJNYCH UKLADACH STEROWANIA] DARIUSZJANECKI 1994 leOp InPOLISH (ISSN 02ossssS) (Im-131994) Avail: lsaring Activity (polish Acedemy of Sci- e m s . warsaw. pdand)
conholsystemsand dtrsaibesthemethods usedtoanalyze these system. Theeuthor places partialaremphasisonthetheoretical
of adaptive systems, especwy on the signifkame of uniform actuation of a cartroaed system for the properties in question. In additiontoeexistngnrsotts~arealreedyrootgdinthefheory.the author presents new resrltsarncemingthe immunityofadapthre systems publiihed forthe tbsttme. The author suppmem and illustrates his theoretical scUion6 with an example d¶he used adaptive controllers to control ltm vibrations of flexible rotors.
Transl. by S C W
This dissertation di-the properdies ofselectedadaptive
Problemsessodated WiththeSEebwty. carve-, and Lnnunity
16 PHYSICS
ics; nudear and high-energy physics; optics; plasma physics; solid-
AS79988 IMPACT, FRICTION, AND WEAR TESTlNG W MICROSAMPLES OF POLYCRYSTALLINE SILICON ABRAHAM P. LEE W i Univ.. Berkeley, CA. US, ALBERT P. PISAN0 C a l i Univ., Bwkdey, CA. US. and MARTIN 0. UM XeroxPaloAltoResearch~.PaloAlto,CA.uS In smart materieh f3bliCatbn and materials fw ~ ; s y m p o s i L l m P ~ . ,SanFrandsco,CA.Apr.28-30, 1992. A95-79980 PitWwgh, PA Materials Research sodety (MRS ~ymposiumRoceedngs . ,Vd.276) (ISSN0212-9172) 1992 p. 67-78
hchJd= Physics (general); - . ;~candmolear la rphys-
state physics; and UtermOdynamKs . andstatisticel Physics.
C o p m
~~,andweartestingofpdycrystellinesilicon(pdysilicon) based- icalstnrchtres.Impect-frictknaffuated
-.-reswrant~areretractsdbyeledro&etic
- b y ~ f o r c e s ~ r c l t e d b y # d e d k a a n ~ X - ufes at- rangingfrom 10 lrHzto2okHz.maequence generidesnonnalimpactandtangentialtricakncartact-the twomcrogtruchr m* raising WearCMIcBm. Twosorts dimpaatest
This paper gives en overview ofthe recent developnentsin
miaomechanicrms f c m a new type of achnrtors. In this type Or
comb drives and are propelled forward towcvd h e actuated
StrUchrreS are introduoed in this paper. One with a reoonantmiao anPea bumper (MIB) striking astetionary impactwall anchoredon
the substrate. Another is a testing of two MI& driven to impact each other. Two types of impact actuators are also described, an actua!ed micro angular d l a t o r (MAO) and a pdysiliicon mum vibrornotor. The vibromotor is a rotor driven by oblique impact on the rim by a converter pointer lip attached to a lateral resonator. Some initial results of impact wear testing as well as static and dynamic friction done by researchers m the field are atso described in the paper. Finally. many areas where material sciemtW can contribute tothisfieldaresuggested. Aulhor (Hemer)
A9580633 LASER DEVICE FOR MEASURING A VESSEL'S SPEED A. 2. ZURABYAN S.I. Vevilov SW& optical Inst.. St. Petersburg. Russia, V. K. KACHURIN S.I. Vavilov State Optical Inst., St. Petersburg. Russia, and V. A. YAKOVLEV S.I. Vavibv State opliarl Inst, St. Petersburg, Russia Journal of Optical Tcdmokgy (ISSN 1070-9762) vd. 61, no. 10 October 1994 p. 738-740 ("-95-60992) cowriam mining the speed of vessels (shipsandseaplanes) with respectto
cmated. Results are plssemd of fu#-scale tests of the msldlhg
This paperconsiders anewremate optical method for deter-
the water sufface. Theerrorinmeasuringthespeedisestimated. andadsscriptia, isgivenofapmtotypafthedevicethathasbeen
laser device for meaming a vessel's speed. ktthor (Herner)
A95-01690 EMPIRICAL CORRECTIONS OF THE RIGID ROTOR INTERACTlON POTENTIAL OF Hz-H2 IN THE ATTRACTIVE REGION: DIMER FEATURES IN THE FIR ABSORPTION SPECTRA
@w--jA-Pm= ' (ISSN0004-6361) vd.284, J. SCHAEFER Max-Planclr-lnstiM fuer Astrophysik. OarCtring.
m.3 April1994 p.1015-1025 ("-9541943) copyrism
An improved rigid ropotpoten!ial ofthe H2-H2 system has been determined for reproducing measured quanbjties which are espe- cially smsitim to the MI non-spherical interaction in the ettractive region. The leading potential terms have been fitted one after the other: the isab'opic term V(mb OOO) has been adapted to two mtsd m Q a s 4 m d ~ v i r i a l ~ O f p a m - W . E @ ~ w to2OoKtheenisotroplc . tenn V(Sub 022) (=V(Sub 202)) has been adepted~reproduce-hypehe-frequenaea - o f the ortho-H2 - para-H2 dimers observed in a mdearlarbwm magnetic resonance experiment by Vefbeme (1979) and Vetbeme &I Reuss (1 980,1981 ), and additional obsenred data farthe ortho+@ -Ortho-H2dime~havebeenUSedtD~¶he~quadnrpoleguadru- pole interaction tern V(sub 224) as a. SaWying quentitelhre agreement hasbeen achieved inall these-. Themnsithm (rather small) empirical imprwemems ofthe arrisotroplc --lpans provide now imprwed dimer binding enwgies. The possiMe dimer oeahaesinthefarArhared(lessthan3o/an)spednnnhydrogengas atverywtemperflhre-shownbydiscussingafewexamples. undertherrssunpbon o f d k n e ~ e q u i i i b r i u m : n O n n a c H 2 a t 2 0 K, equilibrknrrH2 et60 and 120 K, and ahiglrlyspearlehve - m o d e s ofcoldinbrstdlarmokdarhydrogenatabout5K. krthor(mr)
NgS-248TFX GeorgieT~ResearchI~~&.Atiantn,oA kous- tics. AemdynamKs . ,andMvancedvehidesDiv. EFFECTS OF CAVITY DIMENSIONS, BOUNDARY LAYER, AND TEMPERATURE ON C A W NOISE WITH EMPHASIS ON BENCHMARK DATA TO VALIDATE COMPUTATIONAL AEROACOUSTICCODES K.K.AHWAandJ.MENDOU Apr.1995 2 f 8 p
(NASACR4653, "3 (*smr: NAs1-19061; RTW 505-5852-01)
Avail: CAS1 HC A l W F A03 T h i s ~ ~ t h e r e s u l t s o f m e ~ ~
lion on the response ofacavityto external ftowfielbs.The primary objective oflhii research wasto acquire benchmark of data on the effectsofcevity length. width. depth. upslmamtmndarylayer. and flow temperatureon cavitynoise. These data were to be usad for
361
16 PHYSICS
validation of computational aeroacoustic (CAA) codes on cavity noise. To achieve this objective, a systematic set of acoustic and flow measurements were made for subsonic turbulent flows ap- proaching a cavity. These measurements were conducted in the research facilities of the Georgia Tech research institute. Two cavity models were designed, one for heated flow and another for unheated flow studies. Both models were designed such that the cavity length (L) could easily be varied while holding fixed the depth (D) and width (W) dimensions of the cavity. Depth and width blocks were manufac- tured so that these dimensions could be varied as well. A wall jet issuing from a rectangular nozzle was used to simulate flows over the cavity. Author
N95-25004t National Aerospace Lab., Tokyo (Japan). Control Systems Div. PRELIMINARY EXPERIMENTS OF AN OPTICAL FIBER DISPLAY KAORU WAKAIRO, AKlRA WATANABE, and HIROYASU KAWAHARA Jan. 1995 20 p In JAPANESE (ISSN 0389-401 0) (NAL-TR-1257) Avail: CAS1 HC A03NF A01
At the National Aerospace Laboratory. the technological feasi- bility study of a dome screen display, which is able to give simulator pilots a very wide field of outside view, has been conducted. To provide this wide field of view, we designed a new display screen which itself could emit the light. We call this kind of screen 'a self- luminescence display.' For the self-luminescence display, we can use not only a CRT or a liquid crystal display, but also optical fibers. To investigate the applicability of plastic fibers for a self-lumines- cence display for use in flight simulators, we prepared a trial display. We made two displays of the same size, both of which were 900 mm in height and 1200 mm in length. The fiber's diameter is 0.75 mm, and the total number of fibers is 34,400 per display. We tested the validities of a fiber display and reached the following conclusions: (1 ) brightness is sufficient; (2) angle of view is limited and too narrow for practical use; and (3) picture quality is inferior. Author
N95-25978# International Centre for Theoretical Physics, Trieste
DYNAMICS OF PHASE ORDERING OF NEMATICS IN A PORE A. BHAlTACHARYA, M. RAO, and A. CHAKRABARTI (Kansas State Univ., Manhattan, KS.) Jun. 1994 16 p (DE95-607662; IC-94/138) Avail: CAS1 HC A03NF A01 (US Sales
We study the kinetics of phase ordering of a nematic liquid crystal, modeled by a spin-rotor Hamiltonian, conflned within a parallel piped pore. The dynamics of the rotor obeys the time- dependent Ginzburg-Landau equation. We Study the generation and evolution of a variety of defect structures, and the growth of domains, with different anchoring conditions at the pore surface. Unlike in binary fluids, mere confinement with no anchoring field, does not result in slow dynamics. Homeotropic anchoring, however, leads to slow logarithmic growth. Interestingly, homogeneous an- choring dynamically generates wall defects, resulting in an lsing like structure factor at late times. DOE
(Italy).
Only)
NS5-26015' Natlonal Aeronautics and Space Administration. Ames Research Center, Moffett Field, CA. ANGULAR DISPLACEMENT MEASURING DEVICE Patent H. LEE B. SEEGMILLER. inventor (to NASA) 11 Aug. 1992 7 p Filed 10 Oct. 1991 (NASA-CASE-ARC1 1937-1 ; US-PATENT-5,137,353: US-PATENT-
APPL-SN-774490; US-PATENT-CLASS-356-152; US-PATENT- CLASS-356-34; US-PATENT-CLASS-250-225; INT-PATENT- CLASS-GO1 B-11/16) Avail: US Patent and Trademark Office
A system for measuring the angular displacement of a p i n t Of interest on a structure, such as aircraft model within a wind tunnel, includes a source of polarized light located at the point of interest. A remote detector arrangement detects the orientation of the Plane of the polarized light received from the source and compares this orientation with the initial orientation to determine the amount or rate of angular displacement of the point of interest. The detector arrangement comprises a rotating polarizing filter and a dual filter and light detector unit. The latter unit comprises an inner aligned filter and photodetector assembly which is disposed relative to the periphery of the polarizer so as to receive polarized light passing the polarizing filter and an outer aligned filter and photodetector assem- bly which receives the polarized light directly, Le., without passing through the polarizing filter. The purpose of the unit is to compensate for the effects of dust, fog and the like. A polarization presenring optical fiber conducts polarized light from a remote laser source to the point of interest.
Official Gazette of the U.S. Patent and Trademark Office
N95-26160'1 McDonnell-Douglas Aerospace, Long Beach, CA. NOISE IMPACT OF ADVANCED HIGH LIFT SYSTEMS Final Report KEVIN R. ELMER and MAHENDRA C. JOSH1 Mar. 1995 66 p (Contract(s)/orant(s): NAS1-20103; RTOP 538-03-1 5-01)
CAS1 HC AOMF A01 The impact of advanced high l i systems on aircraft size,
performance, direct operating cost and noise were evaluated for short-to-medium and medium-to-long range aircraft with high by- pass ratio and very high bypass ratio engines. The benefit of advanced high IR systems in reducing noise was found to be less than 1 effective-perceived-noise decibel level (EPNdB) when the aircraft were sized to minimize takeoff gross weight. These aircraft did, however, have smaller wings and lower engine thrusts for the same mission than aircraft with conventional high lift systems. When the advanced high IR system was implemented without reducing wing size and simultaneously using lower flap angles that provide higher VD at approach a cumulative noise reduction of as much as 4 EPNdB was obtained. Comparison of aircraft configurations that have similar approach speeds showed cumulative noise reduction of 2.6 EPNdB that Is purely the result of incorporating advanced high lift system In the aircraft design. Author
(NASA-CR-195028; NAS 1.26:195028; CRAD-9310-TR-0127) Avail:
N95-26187 National Aeronautics and Space Administration. Lewis Research Center, Cleveland, OH. JET MIXER NOISE SUPPRESSOR USING ACOUSTIC FEEDBACK Patent EDWARD J. RICE, inventor (to NASA) 28 Feb. 1995 12 p Filed 10 Feb. 1994 Division of US-Patent-5,325,661 (US Patent-Appl-SN- 46256, filed 14 Apr. 1993) (NASA-CASE-LEW-15170-2: US-PATENT-5.392,597; US-PATENT- APPL-SN-194854; US-PATENT-APPL-SN-046256; US-PATENT- CLAssgo-204; US-PATENT-CLASS-271; INT-PATENT-CLASS- F02C7x)o) Avail: US Patent and Trademark Omce
The present Invention generally relates lo providing an im- Proved jet mixer noise suppressor for high speed jets that rapidly mixes high speed air flow with a lower speed alr flow, and more particularly, relates to an improved jet mixer noise suppressor that uses feedback of acoustic waves produced by the interaction of shear flow instability waves with an obstacle downstream of the jet nozzle. Official Gazette of the U.S. Patent and Trademark Office
362
SOCIAL SCIENCES 18
17 SOCIAL SCIENCES
Indudes social sciences (general); administra tion and manage- merit - ' andinformationscience;economicsandcost analysis; law and pditical science; and urban technology and transportation.
N%-24202# F e d e n a l A v i a t i O n w . ,washington,Dc. FEDERAL AVIATION ADMINlSTRATlON PLAN FOR RESEARCH, ENGINEERING AND MVELOPMEHT, 19% Dec. 1994 216p Avail: CAS1 tic AlOlMF A03
The Federal Aviebion Adrrrinistra tion (FM) manages and operates the National Airspace System (NAS). a Significant na- tionalreswrce.~ever,thedemandsa?lthksystemarecontinr- wsly growing, and changing techndogies provide the opporMty to improve system elfecthnws and efficiency. Today, 23 of the c0unt1~'s largest airports are plagued by more lhan 20,OOO hours of delay per year, which ispmjecbdto gmwto 40 a i m b y 2OOO. Nationally. airtrafficdelayscostthe ecofmnyan eStimeted $6 billion in passenger delays and $3 billion in airtine operating costs in 1990. At arm trends, these casts will imease 50 percent within 10 years. The FAA must ac#rmmodate the increns- ing demand on limited akport and airspace Capacity, deal with
problems of an aging aitaaft (leet. These tequimmmls pobe unprecedentdchellenges.*rMchcenarlybemet~amajor investment in research, enghwhg Md dw&pmmt (R,E&D). The pmjects in this Plan am thore needed tom the fAALvirbrr o f t h e M u r e s y s t # n t o m a l i t y i n t h e a m & x t d a ~ ~ system engineering pmoess. The Plan has enjoyed co&hbom from across the specbum of scientffic. operatknal, and uear communities.Plan contar& apacity and air traffic nmqmmni techndogy; canmunicat ions.na~.dsurvei l rmcs;~r ; airport technology; aireraft safety techndogy, system secudty technology; human factors and aviation medidne; envimm andenergy'andmavafiveEcooQerahve . msemch. Derivediromtext
crucial airport security issues, and Eope with the dweseen
The Flight Simulation Laboratory (FSL) Electronic Docurnem- tion s e e m design consists of modification and u t i l i of the MSFC Integrated Engineering System (IES). translation of the existing FSL dowmentation to an electronic format, and generation of new drawings to represent the Engine Flight Simulation Labora- tory design and implementah. The intent of the electronic docu- mentation is to prwide ease of access, local printlplot capebilie~. as well as the ability to correct and/or modify the stored data by network users who are authorized to access this information.
Derived from text
18 SPACE SCIENCES
. .knes A95-111- NationalAe~andspam- Research Center, Moffett FM, CA. SOFIA STRATOSPHERIC OBSERVATORY f OR INFRARED ASTRONOMY E. F. ERICKSON NASA Ames Reswci~ Center, Moffett Fdd, CA. US and J. A. DAVIDSON NASk Ames Research Ckltef, Mdfett F i . C A , U S Spamastronomy;SymposimE2andMeetingsE10. E8 end Egofthe COSPAR. PlenaryMeeting.m, washington. Dc.
Research (ISSN Orn-llTI) vol. 13. no. 12 December 1993 p. W w W 2)55s Copyrism
SOFIA, (Smtoqhric Observatory for Infrared Astmmmy) is a planned 2.5 meter telescope to be installed in a Boeing 747 aircraft and operated at attihrdes from 41.000 to 46,OOO feet. It will permit routine mBBWrement of infnved ladiation - . franthe grounbbased sites, and obswmmn . ofasmnomd . objfzband transient events from anywhere in the wald. The cmcept is based onl8yearsofexpe&ncewRhNA!jA'sKuiperAirbomeobsmmbry (KAO), which SOFIA would replace. Author (Hemer)
. .
USA, Aug. 28 - Sep. 5. 1992. A9581512 AdvMces in Space
363
SUBJECT INDEX AERONAUTICAL ENGINEERING I A Continuing Bibliography (Supplement 320) August 1995
Typical Subject Index Listing
The subject heading is a key to the subject content of the document. The title is used to provide a description of the subjecl matter. When the title is insufficiently descriptive of document content. a title extension is added. wparated from the title by three hyphens. The accession number and the page number are brduded in each entry lo assist the user in locating the abstract in the abstract section. If appl@&k. a report number is also included as an aid in iden- tifying the document. Under any one subject heading, the accession numberr are arranged in sequence.
A SPECTRA
Chermcal hhange m the arcbc vor(ex dumg AASE2 I HTN-95704471 ~ 3 5 2 A9578012
LaMude VanShDns 01 stratosphanc gases I HTN-95-7- 1 p352 A9578013
E m a l correclmns 01 the rtgld rotor interactmn Potenbal d H242 n the am- regon hmer teobres in lhe FIR sbsorpbon rpecag I“-95-419431 p361 A9581690
AEROSERVOELASTICITY SUBJECT INDEX
AEROSERVOELASTICITY Aeroservoelastic aspects 01 winglcontrol surface
planform shape optimization I BTN-95-EIX95222650795 1 p 340 A95-79251
AEROSOLS Etlects on stratospheric ozone lrom high-speed civil
transport Sensitivity l o stratospheric aerosol loading I HTN-95-918421 p 354 A95-80830
High-speed civil transport impact Role 01 sulfate nitnc acid tnhydrate. and Ice aerosols studied with a two-dimenwonal model including aerosol physics I HTN-95-918431 p 354 A95-80831
aircraftl2D simulation I HTN-95.512821 p 356 A9540867
Potential effects on ozone 01 future supersonic
Impact on ozone 01 high-speed stratosphenc aircraft Effects of the emission scenario IHTN-95.512831 p 356 A95-80868
The atmospheric eftects 01 stratosphenc aircran A fourth program report INASA-RP-13591 p 357 N95-24274
AEROSPACE ENGINEERING NASA-UVA light aerospace alloy and structures
I NASA-CR-198041 I p 343 N95-24220 NASA video catalog
I NASA-SP.7109(01)] p 363 N95-24238
Measurements of longitudinal static aerodynamic CoeIlIcents by the cable mount system I NAL-TR-12261 p 331 N95-25761
technology program (LAST)
AEROSPACE PLANES
AEROSPACE SCIENCES NASA video catalog
AEROTHERMODVNAMICS I NASA-SP-7109(01) 1 p 363 N95-24238
DSMC Calculations for 70deg blunted cone at 3 2 km/s in nitrogen I NASA-TM.109181] p 348 N95-24396
AGING (MATERIALS) Proceedings of the 2d USAF Aging Aucraft
Conference IAD-A288217 1 p 336 N95-25578
Identification and simulation evaluation of a combat AH44 HELICOFTER
helicopter in hover I BTN.95-EIX95242670749 I p 335 A9581098
AIR LAUNCHING SR-71 may launch targets lor missile defense tests
AIR MASSES Fie-scale poleward transpon of tropical air during
AASE 2 I HTN-95.70949 I p 352 A95-78014
Descnbing an anitude p 342 A95-80409 Ideal proportional navigation p 342 A9541374 Federal Aviatlon Administration plan lor research.
p 363 N95-24202
Vertlcal transport rates in the slatosphere in 1993 from
I HTN-95.70941 I p351 A95-78006
encounters I HTN-95-70943 I p 351 A95-78008
Mendmal distributions 01 NO(X) NO(Y). and other specms in the lower statosphere and upper troposphere dunng AASE 2 I HTN-95-70944 I p 352 A95-78009
Cornpanson of column abundances from three inhared spectrometers dunng AASE 2 I HTN-95-70946 I p 352 A95-7801 1
ChemIcal chhange in the arctic vortex dunng AASE 2 I HTN-95-709471 p 352 A95-78012
LaBtude variallons 01 stratospheric trace gases I HTN-95-70948 I p 352 A95-78013
Fine-scale. poleward transport of tropml air dunng AASE 2 1 HTN-95-70949 I p 352 A9578014
I HTN-95-91872 I p 335 A95-81974
AIR NAVIGATION
engineenng and development. 1995
AIR POLLUTION
observabons of CO2. N20. and CH4
An analysis of aircran exhaust plumes form accidental
North Atlantic air traftic mthin the lover shetosphere Cruislng times and corresponding emissons I HTN-95-918411 p354 A9540829
Chemml compoation and photochemical reactwtly of exhaust from aircraft turkne engines [ HTN-95.51277 ] p356 A9580862
Potenbal effects on ozone of Mure wpwsomc ancnH/ZD stnulabon I HTN-95-512821 p356 A9580887
Impact on ozone 01 high-speed slralosphenc aircraft Eftects of the emission scenarm I HTN-95-512831 p356 A9540868
The atmosphenc effects of stratospheric aircraft A fourth program report [NASA-RP-13591 D 357 N95-24274
Nitrogen oxide emissions and their control from uninstalled aircraft engines in enclosed test cells Joint report lo Congress on the Environmental Protection Agency - Department of Transportation study lPB95-166237 I p 358 N95-26005
Nitrogen oxide emissions and their control from uninstalled aircraft engines in enclosed test cells Joint report to Congress on the Environmental Protection Agency . Department 01 Transportation study I PB95-1662371 p 358 N95-26005
VertiCal transport rates in the statosphere in 1993 from obsewatms 01 CO2 N20. and CH4 IHTN-95-70941 I p 351 A9578006
An analysis 01 aircraft exhaust plumes form accidental encounters I HTN-95-70943 1 p 351 A95.78008
Meridional distributions of NO(X). NO(Y). and other specms in the lower statosphere and upper troposphere dunng AASE 2 I HTN-95-70944 1 p 352 A95-78009
Cornpanson of column abundances from three inlrared spectrometers dunng AASE 2 I HTN-95.70946 1 p 352 A95-7801 1
Chenwcal chhange in the arctic vortex dunng AASE 2 I HTN-95.70947 I p 352 A95-78012
Latitude vanatlons of stratospheric trace gases I HTN-95-70948 1 p 352 A95-78013
Fine-scale. poleward transport 01 tropical air during AASE 2 I HTN-95-70949 I p 352 A95-78014
Chemical composition and photochemical reactmty 01 exhaust from aircraft turbine engines
p356 A9580862 I HTN-95-51277 I
Ideal proportional navigation p 342 A9541374
North Atlanbc air traffic within the low& stratosphere Crwang Bmes and conesponding emissons IHTN-95-91841 I p354 A9540829
Anahon system capaclty improvements through technology [NASA-TM-1091651 p 333 N95-24633
Federal Aviation Administration plan for research.
p 363 N95-24202
AIR QUALITY
AIR SAMPLING
AIR TO AIR MISSILES
AIR TRAFFIC
AIR TRAFFIC CONTROL
engineenng and development. 1995
Aviation system capacity improvements through technology [NASA TM-1091651 p 333 N95-24633
AIR TRANSPORTATION Federal Aviation Administration plan lor research,
Anabon system capacity improvements through
engineenng and development. 1995 p363 N95-24202
technology I NASA-TM-109165 1 p 333 N95-24633
AIRBORNE RADAR bnamic imaging and RCS measurements 01 aircraft
[ BTN-95-EIX95202637582) p347 A9578576
Guldance and control 1993, Annual Rocky Mountain Guidance and Control Conference. 16th. Keystone. CO. Feb 6-10. 1993 I ISBN4-87703-385-x 1 p341 A9580389
Ancraft accident report Impact mth blast fence upon landing rollout Acton Air Charters fllght 990 Piper PA-31 -350. N990RA. Stratlord, Connecticut.27 Apnl 1994 [ PB94-910410] p 333 N95-24206
Real-Bme deciaon aiding Aircraft guIdmce lor wind shear avWnce [ BTN-95EIX95202637575 I p 332 A95-78583
Aucntt acadent repor( Impact mth Wst fence upon lafwj~ng rollout Actlon Air ChartSnr light 990 PIper PA-31 -350. N990RA. Stratford. Connecticut.27 April 1994 [ PB94-910410] P 333 N95-24206
chanctermng the wake vortex wnnture for an actwe
1 NASA-CR-1876971 P 333 N95-24391
AIRBORNEISPACEBORNE COMPUTERS
AIRCRAFT ACCIDENT INVESTIGATION
AIRCRAFT ACCIDENTS
AIRCRAFT APPROACH SPACING
line 01 rght mmote sensor
AIRCRAFT CONFKIURATIONS A a m m m model lor a W n w c ASTOVL lilt-Ian
Ucnn INASA-TM-110347] P332 N95-26302
NASA-UVa llght aerospace a b and structures technology program suwlemnt Alumnum-based matennis for hgh speed aircraft I NASA-CR-46451 P 343 N95-24878
Jet engine applications for matennis mth nanometer-scale dimensions P 345 N95-26131
AIRCRAFT CONSTRUCTION MATI!RlAlll
AIRCRAFT CONTROL Determination 01 piloting leedback Structures lor an
altitude tracking task [ BTN-95-EIX95242670770 I p 327 A9541077
On-line learning nonlinear direct neurocontrollers for restructurable control systems I BTN-95-EIX95242670768 1 p 359 A9541079
Robust dynamic inversion lor control 01 highly maneuverable aircraft [ BTN-95-EIX95.242670747 1 p 359 A95-81100
Application of neural networks to unsteady aerodynamic p 360 N95-25264 control
Aeroservoelasttc aspects of wing/control Surface planform shape optimization I BTN-95-EtX95222650795 I p 340 A95-79251
AIRCRAFT DESIGN
NASA video catalog [NASA-SP-7109(01) I p 363 N95-24238
Advanced subsonic airplane design and economic studms [ NASA-CR-I954431 p 338 N95-24304
A crew-centered flight deck design philosophy lor High-speed Civil Transport (HSCT) aircraft [NASA-TM-109171 I p 335 N95-24582
Geometnc analysis 01 mng sections (NASA-TM-1103461 p 335 N95-24629
Aerodynamic shape optimization 01 wing and wing-body configurations using control theory [NASA-CR-198024 1 p 335 N95-25334
The coupling of fluids. dynamics. and controls on advanced architecture computers I NASA-CR-197727 I p 360 N95-25797
A quiet STOL Research Aircraft Development program p 336 N95-25862 [ NAL-TR-1223 1
Norse impact 01 advanced high lift systems [ NASA-CR-195028 I p 362 N95-26160
Aerodynamics model lor a genenc ASTOVL lilt-Ian aircraff [ NASA-TM-I 10347 1
AIRCRAFT MTECTION p 332 N95.26302
Visual contrast detection thresholds for aircratt contrails [AD-A2886181 p 328 N95-25607
Orientamn determination 01 aircraft usinq visual 3D matching and radar Case study 2 lPB95-1657911 p 350 N95-25749
Theoretical and expenmental studies of frening-initiated lague failure of aeroengine compressor discs [ BTN-94-EIX94421372285 1 p 343 A95-78467
Nitrous ox& and methane emisyons from aero engines [ HTN-95-213631 p 353 A9578678
Impact of present aircraft emissions 01 nitrogen oxides on tropospheric ozone and climate forcing [HTN-95-213641 p 353 A95-78679
The effect 01 aWtude conditlons on lhe particle emisaons of a J85-GE-5L turbojet engine
p 339 N95-24561 1 NASA-TM-106669 I Bird ingeseon into large turbofan engines
[DOTIFAA/CT-93/14 1 p 333 N95-24631 Nitrogen ox& emissons and their control hom
uninsmlled aircraft engines in enclosed test cells Joint report to Congress on the Environmental Protection Agency - Department of Transpartation study I PB95- 166237 1 p 358 N95-26005
Thermal Bamer COaBng Workshop p 344 N95-26119 [ NASA-CP-10170 1
Thermal bamer coatings lor aircraft engines History and dtrectlons p 344 N95-26121
Thermal bamer coatings issues in advanced land-based gas hnbmes p344 N95-26122
PVD TBC expenence on GE aircraft engines p 345 N95-26126
Thermal barrier coating life modeling in aircraft gas turblne engines p 346 N95-26140
Analyam of waqnng eftects on the staBc and dynamlc
[ NIAR-94-12 1 p 348 N95-24211
AIRCRAFT ENGINES
AIRCRAFT EOUIPMENT
responw of a seat-lype slructure
AIRCRAFT OUIDANCE Real-time deciuon alding Aircraft guldance for wind
shear avodance [ BTN-95EIX95202637575 I p 332 A95-78583
How to fly an aircraff mth control theory and splines P360 N95-25805
ldenbhubon of avubon W%aIfw hazards baaed on the integmbon of radar and kghlning dam [ HTN-95.51323 I P356 A95-80908
Charactermng the wake vortex slgnature lor an actwe line of ught remote sensor [ NASA-CR-197697) P 333 N95-24391
AIRCRIFT n m m
Conslstent approach to descnbing aircraft HIRF protection [NASA-CR-195067) P 334 N95-25341
A-2
SUBJECT INDEX ATMOSPHERIC CONDUCT1 V m
uRcRIFTIIIsTRlJ"ls An intenomparison of aircraft instrumentalion for
I HTN-95918551 p354 A95-80843 An intercomparison 01 atrcraft instrumentabon fa
hoposphenc -e oi wnm &ode
noposphenc measurements of carbonyl sulfide. hyhgen WrlMe. and cmhn &sulfide I HTN-91918%) p355 A9580&44
An inlerwmparmn of mstnnentatan for tropospheric meesurements of &methy( wifde Aircrafl results for comnmms at me parts-per-tnlkon IHTN-95918571 p355 A958M)45
*IAcRIFT UWMWG ~ a ~ r ~ l m p a c t ~ b l a s l ~ q m
landng rollout Aclan k r Charters fkghl 990 Pqm PA-31-350. N990RA. Slralford. Connect~aa.27 Apnl 1994 IpB94-91041Ol p333 N95-24206 chanrcarmg me wake vortsx olgnacureforanscove
I m a - 1 9 7 6 9 7 ) p333 -24391
An OYBM~*I of Health and Montomg systems (HUMS) fw n n b y h&=optm I DSTO-TR-CNX~] p327 N95-242W
HekcoplerMesubstanbatm RenevofsomeuSAmd UK mtmbves IDSTO-fR-cmz] p328 -24201
Estnwteof Pobabllty of a& daggn tmn mmce w-wrepor(data I p8S149381] P328 N95-2429s
~ o f ~ r s m o t e s a n w r
- m m " A w c E
Load allenabon maneuvers fa a launch VeMe p342 A9581360
p333 -24633 AIRCRAFT P*RTs
J P R S r a p m . S a e n a a n d t w . C e n b a l E v a s r a I JPRS-UST-95-01 1 ] p335 N95-24511
AIRCRAFT PILOTS
A-3
ATMOSPHERIC EFFECTS SUBJECT INDEX
ATMOSPHERIC EFFECTS The distribution of hydrogen nitrogen and chlorine
radicals in the lower stratosphere Implications for changes in 0 3 due to emission of NO(y) from supersonic aircraft I HTN-95-70935 I p 351 A95-78000
Dynamics of aircraft exhaust plumes in the jet-regime I HTN-95-512751 p 355 A95-80860
ATMOSPHERIC MODELS Sensitivity of supersonic aircraft modelling studtes to
"03 photolysis rate [HTN-95-114751 p 353 A95-79453
Tracer transport lor realistic aircraft emission scenanos calculated using a three-dimensional model [HTN-95-417991 p 353 A95-80525
Effects on stratosphenc ozone from huh-speed CNII transport Sensitwily lo stratospheric aerosol loading [HTN-95-918421 p 354 A9580830
Potential eflects on ozone of future supersonic aircraft/ZD simulation I HTN-95-512821 p 356 A9540867
Impact on ozone of hlgh-speed stratosphenc aircraft Effects of the emission scenario [HTN-95-51283 1 p356 A9540868
Comparison of column abundances from three infrared spectrometers dunng AASE 2 I HTN-95-70946 I P 352 A95-78011
Aerodynamic parameters 01 crop canopms estimated mth a center-ol-pessure lechniqw
ATMOSPHERIC PRESSURE
[HTN-95-41901 I p 356 A9541648 ATMOSPHERIC SOUNDING
Companson of wind profiler and aircraft wind measurements at Chebogue Point. Nova Scotia I HTN-95-41833 ] p 353 A9540559
ATMOSPHERIC TEMPERATURE Companson of column abundances from three infrared
spectrometers during AASE 2 I HTN-95-70946 I p 352 A95-78011
ATMOSPHERIC TURBULENCE Comparison 01 mnd profiler and aircraft mnd
measurements at Chebogue Pant. Nova Scorn I HTN-95-41833) p 353 A9540559
Aerodynamic parameters 01 crop canopms estimated mth a center-of-pressure technque IHTN-95-41901 I p356 A9541648
Descnbmg an anitude p342 A9580409
The Cassini spacecraft object onented flight control software p359 A9580405
Flight reference display lor powered-lift STOL aircraft I NAL-TA 1251 I p337 N95-25005
Partial camera automation in a slmulated Unmanned Air
ATTITUDE (INCLINATION)
ATTITUDE CONTROL
ATTITUDE INDICATORS
AUTOMATIC CONTROL
VehKle I AD-AZ88786 I p337 N95-26190
AUTOMATIC PILOTS High-performance. robust. bank-tcbturn missile autoplot
design I BTN-95-EIX952426707511 p336 A9541096
p342 A9541360 Load alleviation manewers for a launch vehlcle
AUTONOMOUS NAVIGATION Interfacing a digital compass to a remotecontrolled
helicopter lPB95-1649271 p340 N95-24260
Assessment of avmnics technology in European aerospace organizations INASA-CR-169201 I P 337 N95-24624
Preload release mechanism I NASA-CASE-MSG22327-11 p 350 N95-25592
Conliguration and other dlflerences between Black Hawk and Seahawk helicopters in military servlce in the USA and Australia
AVIONICS
I AR-008.386 I AXIAL STRESS
p 336 N95-25835
Thrust measurement in a 2-D scrampt nozzle p 339 N95-25397
B BAUOON-BORNE INSTRUMENTS
Application of luny logic to opbmze placement of an
p341 A9580380
Study 01 wbsonr base camly flowheld structure uung pamcle image velonmem, I BTN-95-EIX952226507811 o 327 A95-79237
acquiumn. tracking, and polnting experiment
BASE FLOW
~~
BASE PRESSURE
base pressure Smulanty rule for jet-temperature effects on transonic
BTN-95-EIX95222650791] p 329 A95-79247
A-4
BEND IN G Modal characteristics of rotors using a conical shaft finite
element [BTN-94-EIX94401359745 1 p 346 A9577379
p 342 A95-81360 Load alleviation manewers for a launch vehicle
BENDING FATIGUE Thrust measurement in a 2-D scramlet nozzle
p 339 N95-25397
An intercompanson of instrumentation for troposphenc measurements of dimethyl sulfide Aircraft results for Concentrations a1 the parts-per-tnllion level [ HTN-95-918571 p 355 A9540845
BIAS
BIBLIOGRAPHIES NASA video catalog
I NASA-SP-7 109(0 1 ) ] p 363 N95-24238 Aeronautical engineenng A continuing bibliography with
indexes (supplement 316) I NASA-SP-7037(316) I p 328 N95-24465
Aeronautical enginwnng A continuing bibliography mth indexes (suwlement 317) I NASA-SP-7037(317) I p 328 N95-25798
Cumulative reports and publications through December 31, 1994 [ NASA-CR-1950431
BlOTECHNOLOaY p 361 N95-26085
JPRS R e m Science and technology Central Eurasia I JPRS-UST-94-032 ] p 350 N95-24759
BIRD-AIRCRAFT COLLISIONS Bird ingestcon into large turbofan engines
DOT/FAA/CT-93/14] p 333 N95-24631 BIRDS
Lrd ingestion into large turbofan engines [DOT/FAA/CT-93/141 p 333 N95-24631
[ BTN-94-EIX95011441154 ] p 329 A95-80030
IBTN-94-EIX95011441154] p329 A954W30
Qusntlhldhstance requirements for earth-bermed aircraft
BLADE TIPS Unsteady IIH on a swept blade bp
BUM-VORTEX INTERACTION Unsteady Idl on a swept blade bp
BLAST LOADS
shelters I ADA279692 1 p 341 N95-24424
BLUNT BODIES DSMC calculatcons lor 70deg blunted cone at 3 2 km/s
in nitrogen INASA-TM-l09181] p 348 N95-24396
AerodVruvrm ahap optimizatmn of mng and mng-body
I NASACR-198024] p 335 N95-25334 A lheorebcal and expenmental investgabon 01 the How
over supenonic leading edge mnglbody confyluralions DRA-TM-AERO-PROP41 I p331 N95-25649
Dynamrs 01 aircraft exhaust plumes in the pt-regime HTN-95-512751 p355 A9580860 Modeling of aircraft exhaust em18(KxIs and infrared
HTN-95-512761 p355 A95-80861 SOFIA Stratospheric observatory for Infrared
Astronomy p363 A9581583
Fbw sbuchwe m the lee of an inclined 6 1 prolate
[ BTN-94-EIX9501144 1 127 p348 A9581027
Supersonic qulet-tunnel development for lamnar-turbulent transltlon reseafch [NASA-CR-ISBMO] p340 N95-24302
Expenmental study of flow sewrabon on an osallabng flap at Mach 2 4 I BTN-95-EIX95222650792 1 P 329 A95-79248
Supenonr qumt-tunnel development for laminar-turbulent transibon research INASACR-1980401 P340 N9524302
Threedimemnal interaction 01 wakelbwndarv-laver
BODY-WINQ CONFIOURATIONS
mhgmmm uslng control theory
BOElNG 747 AIRCRAFT
apectra for remote measurement of nitrogen oxdes
BOUNDARY LAVER CONTROL
sphermd
BOUNDARY LAYER EQUATIONS
BOUNDARY LAYERMPARATION
BOUNDARY LAYER TRANSITION
BOUNDARY LAVERS
C C-135 AIRCRAFT
Dynamic imaging and RCS measurements of aircraft [ BTN-95-EIX95202637582 I P 347 A95-78576
CABLES (ROPES) Measurements of longitudinal slatic aerodynamic
COeflicients by the cable mount system I NAL-TR-1226 I p 331 N95-25761
A brief survey 01 constrained mechanics and variational
p 360 N95-25803
Partial camera automation in a simulated Unmanned Air
CALCULUS OF VARIATIONS
problems in terms of differential forms
CAMERAS
Vehicle [AD-A2887861 p 337 N95-26190
Aerodvnamic parameters of crop canopies estimated CANOPIES (VEGETATION)
mth a center-of-pressure technique IHTN-95-41901 I p 356 A95-81648
vertical transport rates in the statowhere in 1993 from observatlons of CO2 N20. and CH4 [ HTN-95-709411 p 351 A95-78006
An intercomparison of aircraft instrumentation for tropospheric measurements of carbonyl sulfide hydrogen sullde. and carbon disulfide [HTN-95-91856 I p 355 A9540844
Study on tensile fatigue testing method of unidirectional fiber-reom matrix composites [NAL-TR-1241 I p 343 N95-24989
An intercomparison of aircraft instrumentation for troposphefic measurements of carbonyl sulfide. hydrogen wlfde. and carbon disulfide
p 355 A95-80844 [ HTN-95-91856 1 CASSINI MISSION
The Cassini spacecraft Object oriented flight COntrOl p 359 A95-80405
CATALOGS (PUBLICATIONS)
CARBON DIOXIDE
CARBON DISULFIDE
CARBON FIBER REINFORCED PLASTICS
CARBONYL COMPOUNDS
software
NASA video catalog [ NASA-SP.7109(01) J p 363 N95-24238
Eflecls of cavity dimensions boundary layer. and temperature on camty noise mth emphasis on benchmark data to valldate computational aeroacoustic codes
p 361 N95-24879 I NASA-CR-4653 I
Study of subsonic base cavity llowfield structure using partcle image velocimetry [ BTN-95EIX952226507811 p 327 A95-79237
Effects 01 cavity dimensions. boundary layer, and temperature on camly m s e mth emphasis on benchmark data to validate computatlonal aeroacoustic p 361 codes N95-24879 [ NASA-CR-4653 I
AerodyMmK parameters 01 crop canopms estimated
p356 A95-81648
CAVITIES
CAVITY FLOW
CENTER OF PRESSURE
mth a center-ol-pressure technique [HTN-95-41901 I
CERAMIC COATINGS PVD TBC expertence on GE aircraft engines
p 345 N95-26126 Thermal fracture mechanisms in ceramic thermal bamer
CoabngS p 346 N95-26138 Thermal bamer coating life modeling in aircralt gas
t h n e engines p 346 N95-26140
Conmatent approach to descmbng aircraft HlRF prote*lon [NASA-CR-l9K)671 p 334 N95-25341
An intercomparison of aircraft instrumentation for tropwphenc measurements of sunur dexde [ HTN-95-916551 p354 A95-80843
An intercomparison 01 aircraft instrumentation lor measurements of carbonyl wllde. hydrogen
sun&. and carbon disUn& [ HTN-95-91856 I p355 A95-80844
An intercompanson of instrumentation lor troPosphenc meawrements of dimethyl sulfde Aircraft results for concentralms at the par ts -~ tn l l lon level [HTN-9591857) p355 A9540845
Parts waslung altematNes study United States Coast Guud. Propa summary and report [PB95188146] p 343 N95-26004
AnaIyms of the physical state of one Arctic polar
[ HTN-85709171 p 351 A95-77982 Elfects on stntosphenc Ozone horn hlgh-speed ctml
transport SensIbvlly to atntowphsnc ascorol loading [ HTN-95-91 W2 1 p 354 A95-80830
An intercomparison Of aircraft instrumentation for troporphenc meaaurements of wlfur dloxlde [ HTN-95918551 P354 A9580843
CERTIFICATION
CHEMICAL ANALYSIS
CHEMICAL CLEANINQ
CHEMICAL
S t n ~ c l o u d b . w d O n o k . r m t ~
SUBJECT INDEX CONTROL SY!XEMs DESlGN
A-5
CONTROL THEORY SUBJECT INDEX
CONTROL THEORY Aerodynamic Shape optimization of wing and wingbody
configurations using control theory I NASA-CR-198024 1 p 335 N95-25334
How to fly an aircraft with control theory and splines p 360 N95-25805
Actuating signals in adaptwe control systems I IFTR-13/1994 I p 361 N95-26330
Determination of ploting feedback structures for an CONTROLLABILITY
altitude tracking task 1 BTN-95-EIX95242670770 J p 327 A95-81077
1 BTN-95-EIX95242670750 ] p 334 A9541097 Rotorcraft handling qualities in turbulence
CONTROLLERS Actuating signals in adaptwe control systems
I IFTR-13/1994 1 p 361 N95-26330
Internal performance charactenstics of thrust-vectcfed axisymmetnc ejector nozzles 1 NASA-TM-46101 p 331 N95-25338
Effect of film coolinglregeneratlve cooling on scramlet engum performances I NAL-TR-12421 p 339 N95-24990
lmpngemenl cooling of an isothermally healed surface with a confined slot jet I BTN-94-EIX94421348950 1 p 347 A9578494
Effect of lilm cooling/regeneratne cooling on scramlet engine p e d m m e s I NAL-TR-12421 p 339 N95-24990
Descnbing an attitude p342 A95-80409
CONVERGENT-DIVERGENT NOZZLES
COOLANTS
COOLING
COOLING SYSTEMS
COORDINATE TRANSFORMATIONS
COPPER ALLOYS NASA-UVa light aerospace alloy and structures
technology program supplement Aluminum-based matenalS for hgh speed aircraft I NASA-CR-4645 1 p 343 N95-24878
Integrated development of the equations 01 moton for elastic hypersonic flight vehicles I BTN-95-EIX95242670755 I p327 A95-81092
CORROSION Proceedings of the 2d USAF Aging Aircraft
Conference I AD-AZ88217 1 p 336 N95-25578
COSINE SERIES Describing an attitude p342 A95-80409
COST ANALYSIS Small gas turbine component evaluation study
CORIOLIS EFFECT
I PB95-147542 1 p338 N95-24293
Estimate 01 probability 01 crack detectwn from s e ~ c e difficulty report data lPB95-149381 I p328 N95-24295
Thermal fracture mechanisms in ceramic thermal bamer coatings p 346 N95-26138
Theoretical and expenmental studms 01 hatting-mibated latigue lailure 01 aeroengine compressor discs I BTN-94-EIX94421372285 I p 343 A95-78467
Estimate of probablity of crack detecton from same diniculty r e p m data lPB95-14938t I p 328 N95-24295
Theoretical and experimental studms of fretting-initiated latigue lailure of aeroengine compressor discs I BTN-94-EIX94421372285] p 343 A95-78467
Analysis 01 warping effects on (he state and dynamc response 01 a real-type structure INIAR-94-12 I p 348 N95-24211
A crew-centered (light deck design philosophy for High-Speed Civil Transport (HSCT) aircraft INASA-TM-109171~ p 335 N95-24582
High frequency flow-structural interaction in dense
I NASA-CR-4652 1 p 330 N95-24217
CRACK INITIATION
CRACK PROPAGATION
CRACKS
CRASHWORTHINESS
CREW WORKSTATIONS
CRITICAL FLOW
subsonic llulds
CROSS FLOW Threedimenslonal intmctwn d wakelboundary-layer
and vortex/boundary-layer data r q m l I CUEOIA-AEREOITR-23 I p329 N85-24210
crossflow mixing 01 mi rcu la r pts 1 NASA-TM-1068651 p338 N95-24380
Effect of denstty gradlents in wnfmd ruperaonw: ahear layers Part 2 3-D modes INASAGR-198030 I p349 N95-24413
Notlh Atlantc air traffic mthin the lower stratosphere Cruising times and corresponding emissions 1 HTN-95-91841 I p 354 ABS-80829
CRUISING FUQHT
A-6
CRYOGENIC FLUIDS Thermohydrodynamic analysis of cryogenic liquid
turbulent flow fluid film bearings. phase 2 [ NASA-CR-197412 1 p 349 N95-24461
Similarity rule for jet-temperature eftects on transonic base pressure I BTN-95-EIX952226507911 p 329 A95-79247
CRYDGENIC WIND TUNNELS
D DAMAGE
On-line learning nonlinear direct neurocontrollers for
p 359 A95-81079
p 333 N95-24631
Emerging nondestructive inspection for aging aircraft I PB95-143053 1 p 328 N95-25401
Proceedings of the 2d USAF Aging Aircraft Conference I ADA28821 7 I p 336 N95-25578
An o v m of Health and Usage Monitonng Systems (HUMS) for military helicopters [DSTO-TR-0061 I p 327 N95-24200
NLS Flqht Simulation Laboratwy (FSL) documentation [NASA-CR-196564 I p 363 N95-24439
Long endurance stratosphenc solar powered airship lPB95-178729) p 336 N95-26009
Fault detectwn in multiprocessor systems and array pr0C-s 1 BTN-95-EIX95242679097 I p 359 A95-81253
Uung dgital filtenng techntques as an aid in mnd turbme data analysts IDE94-011862] p 357 N95-24853
Fault detectwn in mulbprocessor systems and array pr- 1 BTN-95-EIX95242679097 I p 359 A9581253
restnicturable control systems I BTN-95-EIX95242670768 I
I WT/FAA/CT-93/14 1 DAMAGE ASSESSMENT
Bird ingestion into large turbofan engines
DATA ACOUSITION
DATA BASES
DATA COLLECTION PLATFORMS
DATA COMPRESSION
DATA PROCESSING
DATA PROCESSlNG EOUIPMENT
DATA REDUCTION ldentifmtwn of awation weather hazards based on the
integration of radar and lightning data [ HTN-95-51323) p 356 A95-80908
Uslng dlgl(al fillenng techniques as an aid in mnd tuhne
[ DE9441 1862 1 p 357 N95-24853
A bnef w a y of constrained nmchancs and vanabonal
p360 N95-25803
htenninatwn 01 ploting feedback structures lor an
I BTN-95-EIX95242670770 1 p327 A9581077
data aMIy¶ls
DATA SMOOTHlNG
problems in terms of dlfterential forms
DATASTRUCTURES
albtude tracking task
DEBRIS Quanbty4stance requirements fcf earth-bermed aircraft
S M U S 1 ADA279692 1 p 341 N95-24424
DECISION MAKING Real-time decislon aiding Aircraft guidance for mnd
shear avoidance IBTN-95-EIX95202637575 1 p 332 A95-70583
DEFECTS Djmnucs 01 phase cfdenng of namallcs in a pore
1 DE85607662 1 p 362 N95-25978
AMWS of warpng effects on the stabc and dynamic
p 348 N95-24211 Readwl Stress Measurements with Laser Speckle
cOn.latwn Intederometry and Local Heat Treating 1 DE95060082 1 p 349 N95-24598
DEUURVA PENINSULA (DEYDVA) Idnnbfubm 01 ambon Weather hazards basad on the
intograbon of ndu and llghtrung data I HTN-95-513233 p356 A9580908
A new guidance and IIqht WnbPl system for the DELTA 2 hunch veh& - Abstract onb p 342 A95-80427
beet adapbva and neural Wntrol of mng-rock m t w n of slaw delta mngs I BTN-95-EIX95242670748 1 p327 A9581099
Low speed aerodynamic charactensllcs of delta mngs Wh vortex flaps 60 dag and 70 deg delta mngs INAL-TR-1245l p 331 N95-25105
MtwU*TIctm
response of a seat-type structure I NIAR-94-12]
DELTA LAUNCH v E n i c u
DELTA WINOS
DENSITY (MASSIVOLUME) I Effect of density gradients in confined SuPerSOnlC shear I
layers, part 1 I NASA-CR.1980291 p 348 N95-24412
Effect of density gradients in confined supersonic shear I layers. Part 2: 3-D modes I NASA-CR-1980301 p 349 N95-24413
DENSITY DISTRIEUTION Aerodynamic CharaCteristiCS Of the orbital reentry vehicle
experimental probe fins in a supersonic flow INAL-TR-1232 I p 342 N95-25664
DESIGN ANALYSIS Development of a model protection and dynamic
response monitoring system for the national transonic facility (NASA-CR-1950411 p 340 N95-24388
A crew-centered flight deck design philosophy for High.Speed civil TransW (HSCT) aircraft (NASA-TM-1091711 p 335 N95-24582
Long endurance stratospheric solar powered airship [PB95-178729 I p 336 N95-26009
A design perspective on thermal barner coatings p 344 N95-26120
DIESEL ENGINES Thermal Banter Coating Workshop
[NASA-CP-101701 p 344 N95-26119 Thermal barrler coatings application in diesel engines
p 345 N95-26124
Aerodynamic parameter estimation via Fourier
NASA-CR-4654 I p 335 N95-24630 DIGITAL DATA
Usrng dgilal filtenng techniques as an aid in wind turbine data analyws [DE94-0118621 p 357 N95.24853
DIGITAL FILTERS Uslng digital filtenng techniques as an aid in wind turbine
data anaiysis I DE94-011862 I p 357 N95-24853
Interfacing a digital compass to a remote-controlled helmpter IPB95-164927 I p 340 N95-24260
Impact 01 near-coincident faults on digital flight control
p 359 A9541088
Empirical corrections of the rigid rotor intelaCtiOn potentrsl of H2.HZ in the attractwe region Dimer features in the FIR absorptwn spectra [ HTN-9541943 1 p 361 A95-81690
An interwmpanson of instrumentation for trowspheric measurements of dimelhyl sulfide Aircraft results tor concentrabons at the parts-per-trillion level [ HTN-95-91857 1 p 355 A95-80845
Perlormance of an aerodynamic yaw controller mounted on the space shuttle orbIter body flap p at 330 Mach N95-24397 10 I NASA-TM-109179 1
DIFFERENTIAL EOUATIONS
modulating function techniques
DIGITAL NAVIGATION
DIGITAL SYSTEMS
systems I BTN-95-EIX95242670759 I
DIMERIZATION
DIMETHVL COMPOUNDS
DIRECTIONAL CONTROL ,
DISPLACEMENTMEASUREMENT Angular displacement measuring device
[NASA-CASE-ARC-1 1937-1 I p 362 N95-26015 DISPLAY DEVICES
Preliminary expenments of an optical fiber display [NAL-TR-l257 I p 362 N95-25004
The coupling of fluids. dynamics. and controls on advancad archmcture wmputers [NASA-CR-197727 1 p 360 N95-25797
NLS Flght Simulation Laboratory (FSL) documentation
DISTRIBUTED PROCESSING
DOCUMENT STORAGE
(NASA-CR-196564 1 p 363 N95-24439 DOCUMENTATION
NLS Flght Slmulation Laboratory (FSL) documentation [NASA-CR-I965641 p 363 N95-24439
Idenbfutwn 01 aviation weather hazards based on the integrabon of radar and llghtning data [ HTN-9551323 1 p 356 A9540908
Study 01 subrronc bare Canty Ilowiield structure uslng p.rhcle image wlOcimelry
p 327 A95-79237 [BTN-S5EIX952226507811 Numancal and expanmental study of drag charactenstics
of twodmennwnal HLFC lrfoils in hqh subsonic. hgh Reync4da number flow [NAL-TR-I244TI p 331 N95-24998
A thewellcal and expenmental investigation of the flow over supersonic leading edge winglbody configurations I DRA-TM-AERO-PROP-41 I p 331 N95-25649
DOPPLER RADAR
DRAQ REDUCTION
SUBJECT INDEX FAULT MTEmm
DUCTED FLOW S W of cnmpezvble How lhrough a
reclangular-to-Sermannular lransnm duct I NASAGR-4660 1 p 338 N95-24392
Recent rmpovements to and validation of the one dmenwoml NASA wave rotor model [NASA-TM-1069131 p332 N95-25962
Hlgh frequency flow-structural meracMn n dense subsancR.bs INASAGR-*652] p330 N95-24217
on r*gh angle of attack semdynamc charactmsbcs of
DYNAMlCCHIRACTUItSTlCS
Elrpanmemal StIKIy of me effects Of Reynolds nunber
f o r ~ d u n g m ( a r y m o b o n I N A S A C R - ~ ~ W ~ ~ ] p330 N95-24443
AnnWss of rnrpne effects on me &!IC and dynawnc
I NIAR-94-12] p348 N95-24211 Development 01 a model protection and dynanuc
~eSPonse M a n g system ta the mbonal transonc fac*tv 1 NASACR-195041] p340 N9524388
DYNAMIC REsUmsE
~espomia of a seat-type sbuctwe
DYNAYkC STRUCTURAL ANALYSIS uodal CtUramemtKs of rotors usmg a cmcpl shrn forte
element I BTN-94-EIX94401359745 ] p346 A9177379
DYWYkC TESTS A n a W of warpmg enects on me slabc and dvnamc
responoe of a seat-type sbucwe I NIAR-94-12 1 p 348 -24211
DVNlrYICU S Is IEys Actuatng sqnals m adaptwe conbp( systems
I IFTR-i3/1W I p361 -26330
E EIRntscfENcEs
JPRS report Saence and technolqn CQhai E- I JPRSUST-94-018 I p349 N9524472
E C O I I C ANALrslS small gas tubne mmponent evabbm study
I PB95 147542 I p338 N95-24293 Advanced subsonlc airplane desgn ud ecunnn~
StudteS
I NASA-CR 195443 p338 N95-24304 EDDY CURRENTS
Emerging noKlndesvuctwe mpecllon for .prig arrraft I PB95-143053 I p328 N95-25401
Potentel effects on ozone of futue airuanl2D sanulabon
EFFLUENTS
I H l N-955126ZI p356 A9580867 EJECTORS
internal p e r f m w e charac(anmq of tmst-Hlctaed araymmemC ma nodes I NASA-TM-4610 I p a 1 N4525338
EUSTIC DEFORY*TKWI Integrated devekwent of the eqmbons of mobon tor
elastr hypemowc fight VeMeS
Preload release mechansm
I BTN-91EIX95242670755] p327 A95-81092 ELECTRK: co"EcToRs
ELECTRIC oEN€RAToRs I NASA-CASE-MSG22327-1] p350 N95-25592
wtnd t- develO0mem large and slllnIl
lDE95Mw)2861 p358 N95-26090 tuknes
ELECTRtWL - JPRSrepon Soenceendtachnobgy CentrslEuama
I JPRSUST-94-02? ] p349 N95-2U70 JPRS report. Saance and techwbgy Ceneal E-
I JPRSUST-WWl p349 N95-24472 ELECTROMAGNETICCRU)S
conostent .ppoach to -n HIRF
INASA-CR-195067) p334 N95-25341
WKd technoloOy dewkpmm large and small
proteftwm
ELECtROmCcoNlRoL
turbmes IE950002861 p35B
ElEcTRQ*cE- Resctmm deDpon n d q krcnn for wmd
.her- Irn%EU(s5202637575] p332 A85-78u13
~ B T N - ~ S - E I X ~ S ~ ~ Z ~ ~ C S ~ ] p359 A9581253
ELLcT#wIw:EQu(cyIcTTESlS Fault detecbon n mmpocassa ~ n y
pmanras
EvissDw
engnet onde and methane ~ r m 9 9 ~ 9 ha
[ "-9521363 ] P353 A9578670
F
A-7
FAULT TOLERANCE
Fault detection in multiprocessor systems and array
SUBJECT INDEX
processors I BTN-95EIX95242679097 ] p 359 A95-81253
A portable transmission vibratm analysis system for the S-70A-9 Black Hawk helicopter IDSTO-TR-00721 p 348 N95-24203
Impact of near-cancident faults on digital flght control systems I BTN-95-EIX95242670759 1 p 359 A9541088
Modeling of aircraft exhaust emissions and infrared
FAULT TOLERANCE
FEASIBILITY ANALYSIS
Spectra for remote measurement of nitrogen oxides I HTN-95.512761 p355 A95-80861
Determination of piloting leedback structures for an altitude tracking task I BTN-95-EIX9524267077C 1 p 327 A9541077
FEEDBACK CONTROL
FEEDBACK
Load alleviation maneuvers for a launch vehicle
Application of neural networks to unsteady aerodynamic control p 360 N95-25264
Aircraft accident report Impact with blast fence upon landing rollout Action Air Chaners flight 990 Piper PA-31-350. N990RA. Stratford. Connecticut.27 April 1944
p 342 A9541360
FENCES (BARRIERS)
I PB94-910410 I FIBER OPTICS
p 333 N95-24206
The 1994 Fiber Optic Sensors for Aerospace Technology (FOSAT) Workshop I NASA-CP-101661 p 337 N95-24207
Workshop report Measurement techniques in hghly tranuent. spectrally nch combusbon environments I AD-AZ88395 1 p350 N95-25606
FIELD OF VIEW Preliminav exwnments of an wttcal fiber disolav
INAL-TR-1257) FILM COOLING
p 362 N95-25Ci14
Eflecr 01 film coolinglregeneratwe cooling on scramjet engine perlonnances I NAL-TR-12421 p 339 N95-24990
Mcdal characteristics of rotors using a conical shaft finite element I BTN-94-EIX94401359745 I p 346 A95-77379
Viscoplastic response of structures for intense local heating I HTN-95.41540 1 p 346 A95-77921
Theoretical and expenmental studms of lretting-initiated fatigue failure of aeroenglne compressor discs I BTN.94-EIX94421372285] p 343 A9578467
Dvnamic behavior of a maanetic beanna su~mrtBd mt
FINITE ELEMENT METHOD
- .. , engine rotor with auxiliary beanngs I NASA-CR-197860 I p 338 N95-24213
FINS Structure of a double-fin turbulent interactmn at hgh
speed I BTN-95-EIX95222650780 I p 347 A95-79236
Aerodynamic charactenstics of the orbnal reentry vehicle expenmental probe fins in a superwnic flow I NAL-TR-1232 I p342 N95-25664
Fundamental wind tunnel expenments on low-speed lluner 01 a tipfin configuration mng INAL-TR-1228 I p 332 N95-25762
Preliminary anaiyus of Unlverolty of North Dakota aircraft data from the FIRE Cirrus IF02 I NASA-CR-1980381 p 357 N95-24219
Expenmental study of flow separation on an osallating flap at Mach 2 4 1 BTN-95-EIX95222650792 ] p 329 A95-79248
Performance of an aerodynamic yaw controller mounted on the space shunle ortnter body flap at Mach 10 [NASA-TM-1091781 p 330 N95-24397
Determination of ploting leedback structures for an altitude tracking task I BTN-95-EIX952426707701 p327 A9581077
I BTN-95-EIX95242670750 1 p 334 A95-81097
FIRE (CLIMATOLOGY)
FLAPS (CONTROL SURFACES)
FLlQttT CHARACTERISTICS
Rotorcraft handling qualities in turbulence
Aerodynarmc charactensttcs of the ortntal reentry vehicle expenmental probe fins in a (wperwnic flow 1 NAL-TR-12321 p342 N95-25664
0Vn.rmc imaging and RCS meuuraments of awuaft [BTN-95-EIX95202637582 1 p347 A9578576
Cynamr stall control for advanced ro tmaf t awlcation I BTN-95-EIX95222650793 1 p 334 A95-79249
Guldance and control. 1993. Annual Rocky Mountain Gudance and Control Conference. 16th. Keystone. CO. Feb 6-10. 1993
FLIQHT CONTROL
I ISBN-0-87703-365-X I p 341 A95-80389
A-0
The Cassini spacecraft Object oriented flight control sohare p 359 A9540405
A new guidance and flight control system for the DELTA 2 launch vehicle --- Abstract only p 342 A95-80427
On-line learning nonlinear direct neurocontrollers for restructurable control systems 1 BTN-95-EIX95242670768 ] p 359 A9581079
Impact of near-cancident faults on digital flight control systems [ BTN-95-EIX95242670759) p 359 A9541088
DYnamiCS and control of a tethered flight vehicle p 342 A95-81093
High-performance, robust. bank-to-turn missile autopilot desgn I BTN-95-EIX95242670751] p 336 A95-81096
Robust dynamic inversion lor control of highly maneuverable aircraft IBTN-95-EIX95242670747 I p 359 A95-81100
Assessment of avionics technology in European aerospace organizations 1 NASA-CR-189201 1 p 337 N95-24624
A crewcentered flight deck design philosophy for Hgh-Speed Ovil Transport (HSCT) aircraft [NASA-TM-109171 I p 335 N95-24582
1 BTN-95-ElX95.242670754 ]
FLIGHT CREWS
FLIQHT HAZARDS Bird ingestion into large turbofan engines
[DOT/FAA/CT-93/14 1 p 333 N95-24631
NASA-UVA lght aerospace alloy and structures technology program (LAZST) INASA-CR-198041] p 343 N95-24220
Dynamtc imaging and RCS measurements of aircraft p 347 A9578576 1 BTN-95-EIX95202637582 1
Applcalmn of direct transcnption to commercol aircraft trapclory ophmizabon I BTN-95-EIX95242670766 1 p359 A9581081
Identification and umulalmn evaluation of a combat
FLIGHT MECHANICS
FLIQHT PATHS
FLIQHT SIMULATION
helicopter in hover 1 BTN-95-EIX95242670749) p 335 A95-81098
1 NASA-CR-1 B65641 p363 N95-24439 NLS Fltght Smulation Laboratory (FSL) documentation
Flght reference display for powered-ldt STOL aircraft INAL-TR-1251 1 p 337 N95-25005
FLIQHT SIMULATORS Preliminary expenments of an optical fiber display
[ NAL-TR-1257 1 p 362 N95-25004 Visual contrast detectton thresholds for aircraft
contruls [AD-A288618] p 328 N95-25607
Reentry guldance for hypersonic Flight Experiment (HYFLEX) vehicle I NAL-TR-(2351 p334 N95-25764
Fltght reference display for powered-lfl STOL aircraft (NAL-TR-1251 ] p 337 N95-25005
North AUnnW air traflr whin the lower stratosphere Cru~smng bmes and nwresponding e r n i ~ ~ ~ s IHTN-95-91841 1 p354 A95-80829
Swarmuc qumt-tunnel development for
FLIGHT TEST VEHICLES
FLIGHT TESTS
FLIQHT TIME
FLOW CHARACTERISTICS
Innurn-turbulent transton research INASA-CR-1 W O I p 340 N95-24302
Aerodynamic charactenstrs 01 the orbital reentry vehicle expenmental probe fins in a rupenonic flow INAL-TR-12321 p342 N95-25664
Exploratory flow wwaliubon investgallon of maat-mwnted (Ughts in presence of a rotor [ NASA-TM-46341 p 330 N95-24566
Low speed aerodynamic charactenstics of delta mngs mth vortex H.ps 60 deg and 70 deg delta wings I NAL-TR-12451 p 331 N95-25105
Ouanbtatwe compsneon betwean interferometric measurements and EuIW mwta t l ona lor superaonic cone flamr I BTN-95-EIX95222650782 I P358 A9579238
t a m n y - m t t n n m m w c h
FLOW DISTRIBUTION
FLOW MEASUREMENT
sup.rrom q U e 1 - w dewlopman1 for
INASACR-1980401 P%O N95-24302 FLOW VISUALIZATION
Expbratory HOW ~~~ m t ~ t l o n of
[ NASA-TM-4634 ] p 330 N95-24%
ThermohydrodynamlC analysis of cryogenic liquid turbulent flow fluid hlm beMnpS. phue 2 [NASA-CR-197412 I P 349 N95-24461
maat-mounted yghts in pr- of mor
FLUID FILMS
FLUID FLOW Experimental investigation of the flow around a Circular
cylinder Influence of aspect ratio [BTN-94-EIX9501144112Ol p 347 A95-80044
FLUID MECHANICS NASA-UVA tight aerospace alloy and structures
technology program (LA2ST) [NASA-CR-1980411 p 343 N95-24220
JPRS report Science and technology Central Eurasia p 349 N95-24472 I JPRS-UST-94-0181
On the role of the outer region in the turbulent-boundary-layer bursting Process [BTN-94-EIX95011441078 I p 348 A9581056
High frequency flow-structural interaction in dense subsonic fluids I NASA-CR-46521 p 330 N95-24217
Fundamental wind tunnel experiments on low-speed fluner of a tip-fin configuration wing (NAL-TR-12281 p 332 N95-25762
Designand evaluationof afoam-filled hat-stiflened panel concept lor aircraft primary structural applications [NASA-TM-1091751 p 346 N95-26251
Thrust measurements of a complete axisymmetric scramjet in an impulse facility p 339 N95-25395
Balances for the measurement of multiple components of force in flows of a millisecond duration
p 350 N95-25400
Expenmental study of the effects of Reynolds number on hgh angle of attack aerodynamic characteristics of forebodms dunng rotary m t n n INASA-CR-195033 I p 330 N95-24443
Aerodynamic parameter estimation vo Fourmr modulabng function techniques (NASA-CR-46541 p 335 N95-24630
Thermal fracture mechanisms in ceramic thermal bamer coabngs p 346 N95-26138
Quantity-distance requirements for earth-bermed aircraft
p 341 N95-24424
Analysls of warping eflects on the static and dynamic response of a seat-type structure INIAR-94.tZ I p 348 N95-24211
Exploratory flow wwlllization investigation of
p 330 N95-24566
Impact. M i o n . and wear testing of microsamples of polycrystalline ulicon p 361 A95-79988
Shock tunnel studies of scramlet phenomena 1993 p 350 N95-25394
FLUIPSOLID INTERACTIONS
FLUrrER ANALYSIS
FOAMS
FORCE DISTRIBUTION
FOREBODIES
FOURIER ANALYSIS
FRACTURING
FRAGMENTATION
shelters IADA2796921
FRAMES
FREE FLOW
mast-mounted yghts in presence of a rotor ( NASA-TM-4634 1
FRICTION
FUEL COMBUSTION
FUEL [NASAGR-t95038] CONSUMPTlON
Small gas turbine component evaluatton study p 338 N95-24293
Shock tunnel studms of scrnmfet phenomena 1993 I NASA-CR-1950381 p 350 N95.25394
Scramjet thNSt measurement in a shock tunnel p 339 N95-25396
SOFIA Stratosphenc Observatory for Infrared A s t m y p 363 A9541583
Esbmate Of probablity of crack detectmn from service dltficulty report data [PB95-149381 I p 328 N95-24295
JPRS report Science and technology p 335 Central N95-24541 Eurasia
Applcaton of fuay logic to optimize placement of an
p 341 A95-80390
Appllubon of furzy logic to opbmize placement of an
p 3 4 1 A9540390
lPB95-147542 I FUEL INJECTION
FUNCTIONAL DESlQN SPECIFICATIONS
FUSELAQES
FUSION WELDING
[ JPRSUST-95-011 I FUPY SETS
acquiutlon. tracking. and polnting expanment
F U P T SYSTEMS
. c q W . trackmg. and polntmg expanment
G GAS INJECTION
Htgh-speed CMI transport impact Role of sulfate. nitric a& tnhydrate. and r e aerosols studied mth a two-dimenruonnl model including aerosol physics 1 HTN-95-91843 I P 354 A95-80831
SUBJECT INDEX IMPULSES
GASJETS Srmilanty rule for pt-temperature effects on t r a ~ o ~ c
basew- [BTN-95-EIX95222650791] P329 -79247
AerodynamK:cimractensbcsottheut&,ireentrywh&
I NAL-TR-12321 P342 NE-25664
GAS TEYPERATWIE
expenmental probe I n s in a upers~w flw
GASNRBINEENGmEs Smaltgas Nkne mnpment evaluation
lPW5-1475421 p338 N95-24293 Thermal bamer coabngs for amaft engmes thnay and
duecmns p344 NE-26121 Wbamermamgsapplrcaba,mde&enpnar
p345 N9526124 Thermal bamer matmg expermme n the gas (ubne
engne p345 N9126125 WTBCerrpenence on GE arcraft-
p345 N9526126 Pewectweonthennalbamercoatngstorndusbrslgas
meppl lcabans p345 NE-26128 m a n s u R a p p l l c a b o n s t o r m a t s a k w i t h
Thennal-ofzrcorvamsmulbPmer ~ - - ~ ~ p345 NE-26131
Coahnps p345 N95-26133 Thermal b a r n coatma He modebm m amaft aas
Thermal Eamer Coebng Workshop
Thermalbamercoanngsasuesm pdvmaad- I NASA--10170 1 p344 N9526119
gas m n e s p344 NE-26122
Vertwl t r a m rates in the sta- n 1993 fmn ob+ervabom of M 2 . NZO. and CH4 I HTN-95-7094tI p351 A9578006
Deveropment of an mtewentm pagan to arouage shoulder hamess use and sraatl ~ingemralawabm ascraft. phases 1 and 2
GASEOUS
GENERAL AVUT)O)( AIRCRIFT
I DOTIFMIAM-9512 I p333 N9524384 C U S S FtBER RElNFORCW
Study on tensile fabgue testmg mmod at UrbeCMnal fiber-resm matnx cwnpou(es I NAL-TR-1241 I p343 N 9 5 2 4 9
NWws ox& and methane emssmts fmm .a0 engmes
G L O B U AIR POiLuTKwI
I HTN-95213631 p353 A95-78678
I KTN-95-21364 I p353 AQ5-7s79
Impact of wesent aucraft - of nmugen olodes on t r o w w h e w ozone and ckmate i a m g
GLOBAL posmoNlwO S m E y Real-tne tesnng and demomtraton of me US Anny
Coms of Engnreerr' ReaCTme OmTheFly posrtloning system I ADA288624 I p334 N95-25609
~eporr to Congressional Gmmnees Tacbul Aram. Concurrency m developmm and puiwmn of F-22 ancraft should be reduced
GOVERNNENT fWOCmEWW
I GAOINSIAD-9559 1 p336 NE-26338 GRID GENERATON (YATHENATICS)
AerWynsmK: shapeoptlmrmtonofnngandwing&dy conilguratDns using wnvol meay I NASA-CR-198024 I p335 NE625334
Nawer-Stokes equatrns on @s A - p e o m a m : g p o k h t a s o l n g *
INASA-TM-lW19I p332 N95.26075
TheSUP=--I-T-ancapL- and aMlyns p341 N95-2539S
G R o u w o m
H
HYDROGRAPHY Real-bme testing and demonstratton of the us mY
Corps of Engineers Real-Tme OkTheFly PowbOnKlg svstwn 1 ADA288624 1 p334 N95-25609
Sbyaue of a double-hn turbulent mteraclc~~ at hQh HYPERSOWlC BOUNDARY LAYER
p347 A9579236
Integrated development of the equations of mobon tOr
p327 A9581092
Structure of a dable-h affbuknt nteractDn at high speed I BTN-95EIW)5222650780 1 p347 A9579236
[BTN-%EIX95222650789 1 p 329 A9579245
speed I BTN-95ElX95222650780 1
HYPERXWIIC FLIGHT
elasbc hvpeMlrc Hlght vehldes [BTK95EIX95242670755 I
HWERSONfC FLOW
HypeMNc model testngm a shock bnnel
suparcoolmsmhyperrorucn(rogen*nnde [BTN-94-EIX95011441134] p340 A9581020
vamubonofcompltatmal.emdynamcpebbons f o r c a n p l e x ~ - u s n g ~ INCA(bedm181k) code I DE95-000757 1 p330 N95-24308
DsMCt.lalatsm for 7Odeg blunted wne at 3 2 kmls
p348 N9524396 mnrrbogen [NASA-TM-109181]
H e a t b a n s f e r ~ i n g n a H ~ w u d tunneis iAD--91 p 3 4 l N95-2605.3
nrpEAsomcnur-
H.IPERSOIIICSPEED ~ o f a n ~ y a r r c o n t r o H e r m a n \ e d
onmespamshvr(leak(erb0dyflspatMach 10 [NASA-TM-109179] p330 -24397
HIpERso)tlcvEmws fntesrsted-t o f l h e e q u a l m s O l motm tor
p327 A9581092 V - d - V -
-h.ypsrparm- [BTN-SEIX95242670755 1
for canplex - - UMlg INCA(-) code I M95-000757 1 p330 N95-24308
Reenby for hypersonic Flight Expenment (HYFLEX) vehicle (NAL-TR-1235 1 p334 N95-25764
Heat transfex measurements m small s d e wud lWiryIlS IAD-AzeeGCrsl p341 N95-26053
H W E ~ ~ m N N E L s - i n h y p e r r a r l v b o g e n e M s
HyperrorrcmoddGastnginasha(rtunnel [BTK95ElX95222650789 I p329 A9579245 lnlegrafed dewhmnentol the eqrauons of motm tor
(81 N-94-tlX95011441134 I p340 A9581020 "cs
Blssbchyperrarfghtvehrles IBTK95EIX95242670755 1 p327 AB581092
I
A-9
IN-FLIGHT MONITORING SUBJECT INDEX
IN-FLIGHT MONITORING An overview 01 Health and Usage Monitoring Systems
(HUMS) for military helicopters I DSTO-TR-00611 p 327 N95-24200
Dynamics of aircraft exhaust plumes in the let-regime 1 HTN-95-512751 p 355 A95-80860
INDEXES (WCUMENTATION) Aeronautical engineering A continuing bibliography with
indexes (supplement 316) I NASA-SP-7037(316) 1 p 328 N95-24465
Aeronautical engineering A continuing bibliography with indexes (supplement 317) I NASA-SP-7037(317)] p 328 N95-25798
Three-dimensional interaction 01 wakelboundary-layer and vortexlboundarylayer data report 1 CUED/A-AEREO/TR.23 I p 329 N95-24210
NLS Flight Simulation Laboratcq (FSL) documentation 1 NASA-CR.1965641 p 363 N95-24439
INCOMPRESSIBLE FLUIDS
INFINITE SPAN WINGS
INFORMATION SYSTEMS
INFRARED ASTRONOMY SOFIA Stratosphenc Obsewatory for Infrared
Astronomy p 363 A9581583
Modeling 01 aircraft exhaust emissions and inlrared
I HTN-95-512761 p 355 A95-80861
SOFIA Stratospheric Observatory lor Infrared Astronomy p 363 A95-81583
INFRAREDSPECTRA
Spectra for remote measurement of nitrogen oxides
INFRARED TELESCOPES
INGESTION (ENGINES) Bird ingestion into large turbofan engines
I DOT/FAA/CT-93/14 I p 333 N95-24631
Prediction 01 suwrsonic inlet unstan caused by freestream disturbances I BTN-95-EIX95222650790 I p 329 A95-79246
Study of compressible flow through a rectangular-t0-~miannular transitmn duct I NASA-CR-4660 I p 338 N95-24392
Study of compressible flow through a rectangular-to-semiannular transition duct I NASA CR-4660 I p 338 N95-24392
Estimate of probability 01 crack detection from service difticulty repon data lPB95 149381 I p 328 N95-24295
Structure 01 a double-lin turbulent interaction at high speed I BTN-95 EtX95222650780 I p 347 A95-79236
Three-dimensional interaction 01 wakelboundary-layer and vortexlboundary-layer data repon I CUEDIA.AEREO/TR-LB I p 329 N95-24210
Emerging nondestructive inspection for aging aircraft I PB95.1430531 p 328 N95-25401
INTERNAL FLOW High frequency flow-structural interaction in dense
Subsonic lluids I NASA-CR-4652 I p 330 N95-24217
IONIZED GASES
INLET FLOW
INLET NOZZLES
INSPECTION
INTERACTIONAL AERODYNAMICS
INTERFEROMETRY
Aerodynamic charactenstics of the ot+MaI reentry vehicle expenmental probe lins in a supersonic flow I NAL.TR-1232 1 p 342 N95.25664
NASA4Va light aerospace alloy and structures technology program supplement Aluminum-based matenals lor high speed aircraft 1 NASA-CR-4645 I p 343 N95-24878
Preliminary analysis 01 Unwersity of North Dakota aircraft data lrom the FIRE Cirrus IFO-2 I NASA-CR-198038 I p 357 N95-24219
IRON ALLOYS
ISCCP PROJECT
ISOTHERMAL FLOW Crossflow mixing 01 noncircular lets
1 NASA-TM-1068651 P 338 N95-24390
Impingement cooling of an isothermally heated surtace mth a conlined slol jet I BTN-94-EIX944213489501 p347 A95-78494
ISOTHERMAL PROCESSES
J -5 ENQINE
The eflect of albtude conditions on the pamcle emiswns of a J85-GE-SL turbolet engine I NASA-TM-106669 1 p 339 N95-24561
Impact on ozone of high-speed stratosplmnc aircraft Effects 01 the emission scenario I HTN-95.512831 p 356 A95-80868
JET AIRCRAFT
A-10
JET AIRCRAFT NOISE Noise impact 01 advanced high lift systems
I NASA-CR-1950281 p 362 N95-26160 Jet mixer noise suppressor using acoustic feedback
[NASA-CASE-LEW-15170-21 p 362 N95-26187
Nitrous oxide and methane emissions from aero engines [ HTN-95-21363) p 353 A95-78678
North Atlantic air traffic within the lower stratosphere Cruising times and corresponding emissions I HTN-95-918411 p 354 A95-80829
Eftects on stratospheric ozone from high-speed civil transport Sensitivity to Stratospheric aerosol loading I HTN-95.918421 p 354 A95-80830
Dynamics of aircraft exhaust plumes in the jet-regime (HTN-95-512751 p 355 A95-80860
Dynamic behavior of a magnetic beanng supported jet engine rotor with auxiliary beanngs I NASA-CR-1978601 p 338 N95.24213
A desgn perspecttve on thermal barrier coatings p 344 N95-26120
Jet engine applications lor matenals with nanometer-scale dimensions p 345 N95-26131
Sensitivity of supersonic aircraft modelling studies to "03 photolysis rate I HTN-95-114751 p 353 A95-79453
Tracer transport for realistic aircraft emisuon scenaros calculated uung a three-dimensional model [HTN-95-417991 p 353 A95-80525
North Atlanbc air traffic mthin the lower Stratosphere Cruiung times and corresponding emisolons I HTN-95-91841] p354 A95-80829
Effects on stratosphenc ozone from high-speed civil transport Sensitivity to stratosphenc aerosol loading I HTN-95-918421 p 354 A95-80830
Dynamlcs 01 aircraft exhaust plumes in the jet-regime I HTN-95.51275 I p 355 A9540860
Impingement cooling 01 an isothermally heated surtace mth a confined slot jet 1 BTN-94-EIX94421348950 I p347 A9578494
Dynamrs of aircraft exhaust plumes in the jet-regime I HTN.95-512751 p355 A95-80860
Jet mixer noise suppressor uung acwstic feedback (NASA-CASE-LEW-15170-2] p 362 N95-26187
lmpngement cooling of an isothermally heated surface mth a conlined slot jet 1 BTN-94-EIX94421348950 ] p 347 A95-78494
JET ENGINES
JET EXHAUST
JET FLOW
JET IMPINGEMENT
JET MIXING FLOW Crossflow mixing of noncircular jets
1 NASA-TM-106865 I p 338 N95-24390 Jet mixer noise suppressor uolng acous1ic feedback
I NASA-CASE-LEW-15170-2 1 p 362 N95-26187 JET THRUST
Scramlet I h ~ s t measurement in a shock tunnel p 339 N95-25396
Thermohydrodynamic analysis 01 cryogenic lquid JOURNAL BEARlNaS
turtwlent flow lluld hlm beanngs. phase 2 I NASA-CR-197412 I p 349 N95-24461
K K-EPSILON TURBULENCE MODEL
Dynamlcs of atrcraft exhaust plumes in the tat-regime 1 HTN-95512751 p 355 A95-80860
A qulet STOL Research Aircraft (kvelopment program 1 NAL-TR-1223 1 p 336 N95-25862
Dynamics 01 phase ordenng of nomatics in a w e
KAWASAKI AIRCRAFT
KlNmCS
1 DE95607662 I P 362 N95-25978
L LABOR
Pam1 camera automation in a umulated Unmanned Air V e M e IADA288786] p 337 N95-26190
NLS Flight Smulation LaborataY (FSL) documentabon I NASACR-196564 I P383 N9524439
lmpngement cooling of an IrOaumU% hated surface mth a conlined slot jet [BTN-94-ElX944213489501 p 347 A9576494
Numencal and expenmenllll Study 01 dng charactenstics of hvo.&menuonal HLFC 81dalS in hlgh subaonr. hgh Reynolds number flow INAL-TR-1244Tl p 331 N95-24998
UIKHIATORIES
LAMINAR FLOW
LAMINAR FLOW AIRFOILS Numerical and experimental study Of drag characteristics
01 two-dimensional HLFC airfoils in high subsonic. high Reynolds number flow
p 331 N95-24998 INAL-TR-1244Tl
Estimate of probability 01 crack detection lrom service difficulty report data lPB95-149381 I p 328 N95-24295
Residual Stress Measurements with Laser Speckle
p 349 N95-24598
LAP JOINTS
LASER APPLICATIONS
Correlation Interferometry and Local Heat Treating I DE95-060082 I
LASERS Laser device lor measuring a vessel's speed
I HTN-95-60992 I p 361 A95-80633 LATITUDE MEASUREMENT
Latitude variations of stratospheric trace gases p 352 A95-78013 I HTN-95-70948 I
LAUNCH VEHICLES Load allevmtion maneuvers lor a launch vehicle
p 342 A9541360
Dynamic stall control lor advanced rotorcraft LEADING EDGE S U T S
application I BTN-95-EIX95222650793 1 p 334 A95-79249
Three-dimensional interaction 01 wakelboundary-layer and vwlexlboundary-layer data report I CUEDIA-AEREOlTR-23 I p 329 N95-24210
Oynamic stall control lor advanced rotorcraft appkaton 1 BTN-95-EIX95222650793 I p 334 A9579249
A theoretical and expenmental investigation of the flow over supersonic leading edge winglbody configurations IDRA.TM-AERO-PROP-41 I p 331 N95-25649
LEAST SOUARES METHOD p 342 A9540409 Descnbing an anitude
Aerodynamic parameter estimation via Founer modulabng Iunction technques I NASA-CR-4654 I p 335 N95-24630
Aspect estimation of an aircraft using library model silhouenes [PB95-1418341 p 360 N95-25894
Thermal bamer coating lile modeling in aircralt gas turbine engines p 346 N95-26140
LEADINQ EDOES
LIBRARIES
LIFE (DURABILITT)
LIFE SCIENCES NASA video catalog
p 363 N95-24238 JPRS Remrt Science and technology Central
(NASA-SP-7109(01) I
Euraola I JPRS-UST-94032 I p 350 N95-24759
LIFT Dynamlc stall control lor advanced rotorcraft
1 BTN-95-EIX95222650793 I p 334 A95-79249 Unsteady lift on a swept blade tip
p 329 A9540030 [BTN-94-EIX950114411541 NREL airtoil families lor HAWS
I DE95000267 I p 357 N95-24882 Aerodynamic charactenstics 01 the OrbItaI reentry vehicle
expenmenu1 probe fins in a supersonic flow (NAL-TR-12321 p342 N95-25664
p 362 N95-26160 [NASA-CR-t95028 I
Low speed aerodynamic characteristics of delta wings mth vortex flaps 60 deg and 70 deg delta mngs [NAL-TR-12451 p 331 N95-25105
Aerodvnamics model lor a aenenc ASTOVL lift-fan
application
Nase impact of advanced high lift systems
LIFT DRAQ RATIO
LIFT FANS
aircraft 1 NASA-TM-110347 ] p 332 N95-26302
LlQHf ALLOYS NASA-UVA light aerospace alloy and structures
technology program (IAZST) INASA-CR-19804t I p 343 N95-24220
LIQHTNINQ Identilmton 01 a.vIaton weather hazards based on the
integration of radar and lightning data I HTN-95-513231 p356 A9540908
LINE Of SQHT Chuactamng the wake W a x SI~M~W loc an actwe
line 01 SIght remote sensor INASACR-1976971 p 333 N95-24391
LINEAR QUADRATIC REQUUTOR Dpamcs and control of a tethered llighl vehrle
1 BTN-95-EIX95242670754 1 p 342 A9541093 Fundamental mechanisms of aeroelastic control with
control surface and strain actuation I BTN-95-EIX95242670746 1 P 327 A95-81101
P 342 A9541360 Load allevlamn maneuvers for a launch vehicle
I
SUBJECT INDEX
UaUID CRYSTILS OVnamB of phase ordering of nemabcs m a pore
IDE95.6076621 p362 N95-25978
Thermohydrodynamic analysis of cryogenr bqud lurkrlent flow flud hhn beanngs. phase 2 I NASACR-197412) p349 N9524461
NASA-UVa &ght aerospace alloy and structues t- W m Alumnumbpsed
I N A S A - C R ~ 5 1 p343 N95-24878
LKwfD FLOW
ullifw ALLOYS
rrytenals fa hgh speed ancraft
--I
u)cu*RuNElWORUS
--cowTF)oL
Load allenatmn manewem f a a hnch velude p342 A9541360
NLS W SmJam b bas tory F~L) ~cunentsaon INASACR-1965641 p363 -24439
-t m m n c lmaroDn for control Of h#y manevuetable-n I BTK95-EIX95242670747 1 p359 A9581100
L~speedaerodyMmccharaEtarsf fsofdel ta~ mh-tlsps 6odegand7odegdena*mg+
LOW SpEU)
I NAL-TR-1245 I p331 N95-25105
M
IW!WCl of Wcancldem faults on digiW fllght C m b d systems I BTN-95-EIX95242670759 1 p359 A9581088
Eftect of densny gradents m c o n M SU~~KOINC shear layers. parl 1 INASAGR-198029l p348 N9524412
Effect of densRy gadents in conhned superwnlc shear
[ NASA-CR-1980301 p349 N95-24413 layers Pan 2 3-D modes
ARodyrrarmc parameter estnnabon n a F a n e r
I NASAGR-4654 1 p335 -24630 Recent mprovements to and vabdabon of me one
dm%3nsmnal NASA wave mu model [NASA-TM-106913] p332 N95-25962
Thennat banmr COBtng We mode+mg m ancraft gas m s n g n a s p346 N95-26140
Aerodyrumcs model for a penar ASTOVL Ln-ten mrc?aft [NASA-TM-110347] p332 N95-26302
mod*mng-tedmques
--(u*nrrmcs)
I I u ( # u I ~ E s r y I T E s -m.mMe p342 A958M09
E s m a l e o f m o f~de lecbmfromseMce w r e p a t d . t a IPB95-1493811 p328 N95-24295
An nMcompanson 01 ancraft instrumentation for tmporphRlcm(l.nnanenlsdsulhndlo& I HTN-95-918551 p354 A9580843
An intercompanson of aircraft instrumentam f a hoposphenc-olE.rbonyl-,hydmgen ruthde.andcartmdsulMe IHTN-95-91856) p355 A9iBo844
An merrompamon ol m=hlmtamfor~ memmmmb ol dmethyl Wide Ancraft results for amenbaimsaltk%pms+es-Lnibonlevd ["-95-918511 p355 A9580845
l l a m e m . ~ n c h ~ s n n a m e n ( s 1 0 - 1 p350 NB525606
I ~ - M s G P 3 n - l ~ p350 N95-25592 18ouwllllMQyEBlllo
tsdnolosVpogMU2s-n
VEIWRylQ-
Wofkshw repat uspruasn( ledmqms n hghbj
yEEHIIIIc*LDEvIQs ~~~
NASA-UVA bghl .Hov wd sbuctues
fNASACR-1980111 p343 -24220
[JPRS-UST-44427 1 p349 N95-24470 JPRSraponsaenCerdtechnologv~Evcrs la
J P R S R e p o I t ~ a n d t e m n o ( 0 e y ~ llEDlllLsclEycL
Eu.M I JPRSUST-944321 p350 N95-24759
of W X ) . NOW). and oMer spges n Um tauerstaiosphure and uppsr- a m a - 2 \--I p352 A9578009
-FLOW Medumal
Y R A L FATIGUE RDceedngr d me 2d USAF A p q Arrran
contersre IAD-A2e62171 p 3 3 6 N95-25578
NASAUVa lghl mmspmce alloy and muctues tshorowpogm3lrpplement- -tort*)lrPesd- I M C l p343 NB524-378
IBTN-9CEIx95011441134] p340 A 9 5 8 1 m
V e m u l l lranqmi m t e s n thestalosphwe n 1993fmm Dbsernbonaof co2. N20. rmdcH4 IHlN-B5-70841] p351 A957KHX
chemat chhange m the arcbc vortex dumg MSE 2 IHlN-95-70947J p352 A9578012
V-I trampon mtes n thertatDsphsre n 1993lm-n
IHTN-S5-70941] p351 A957BM)6 NaxlsmDde.ndmemnaaauDmhpnum
en@nKj [ H w 5 2 1 3 6 3 ] p353 A9578678
d V of w- p m A9579988
NASA-WA lghl sermpace alloy nd sbuctues tednologypogam [NASACR-lSB0411 p343 N95-24220
YETALyInUxCOVOSmS
yETASfh8l.E STATE slogmmsnhypcrsonc-*nd-
MElEOROLOGY
yETw)IE
observabonsofC02 Nx),pndcH4 - knp.a, Mum. .nd ww -
NUITARY -hsndkng-n-
[BTN-Q5ElX95242670750 1 p334 A9581097
NEURAL NETS
An o v e ~ e w of Health and Usage Mondumg SplemS (HUMS) fa mlitary hekcopters I DSTO-TR-00611 p 327 N95-24200
Helro~ter lrfe substanbation R- of some USA and UK uabahws I DSTO-lR-0062 I p328 N95-24201
NlsslLE CONTROL High-perfumance. d u s t . bank-to-turn m s l e autoprot
~ W I X 9 5 2 4 2 6 7 0 7 5 1 I p336 A9551096 Ideal popabonal Mvlgatmn p 342 A9581374
SR-71 may launch targets for mrsyle delensetesls HTN-95918721 p335 A9541974
SR-71 may launch targee f a mslle defensetas(r IHlN-95918721 p335 A9581974
UsSnEs
YrmLELAu)lrmERs
NrmLESYSTEYS
Hqh-wirmaroe. rokst. bank-to-m lnlsslk autopilot
~ ~ E I X 9 5 2 4 2 1 1 p336 A9581096
A-1 1
NICKEL ALLOYS SUBJECT INDEX
Direct adaptive and neural control Of wingrock motion
Application of neural networks to unsteady aerodynamic
01 slender delta wings I BTN-95-EIX95.242670748 I p 327 A9541099
control p 360 N95-25264
Viscoplastic response of struclures for intense local
I HTN-95-41540) p 346 A95-77921
NICKEL ALLOYS
heating
NITRIC ACID Analysis of the physical state of one Arctic polar
stratospheric cloud based on ObSeNallOnS I HTN-95-70917 1 p 351 A95-77982
Sensitmty of supersonic aircraft modelling studies to "03 photolysis rate IHTN-95-114751 p 353 A95-79453
High-speed civil transport impact Role 01 sulfate. nitric acid trihydrate. and ue aerosols studied wth a two-dimensional model including aerosol physics 1 HTN-95-91843 I p 354 A95-80831
Impact on ozone 01 high-speed stratospheric aircraft Effects of the emission scenario I HTN-95.512831 p356 A95-80868
The distribution 01 hydrogen, nitrogen. and chlonne raduals in the lower stratosphere lrnplicatlons for changes in 03 due to emission of NO(y) from supersonic aircraft I HTN-95.709351 p 351 A95-78000
NITROGEN
Supercooling in hypersonic nitrogen mnd tunnels IBTN-94-EIX950114411341 p 340 A9541020
DSMC calculations lor 70- blunted cone at 3 2 kmls in nitrogen I NASA-TM-109181 ] p 348 N95-24396
Analysis 0 1 the physical State of one Arctic polar NITROGEN OXIDES
StratosPhenc cloud based on observations 1 HTN-95-70917 I p 351 A9577982
The distribution 01 hydrogen. nitrogen. and chlorine radicals in the lower stratosphere Implications for changes in 0 3 due lo emisswn 01 NOIy) from supersonic aircraft I HTN-95-70935 I p351 A95-78000
Vertital transport rates in the statosphere in 1993 from observations 01 CO2. N20 and CH4 I HTN-95-70941 I p351 A95-78m
Meridional distributions 01 NO(X) NO(Y) and other specms in the lower statosphere and upper troposphere during AASE 2 I HTN-95-70944 I p 352 A95-78009
Impact 01 present aircraft emissions 01 nitrogen oxides on tropospheric ozone and climate lorcing I HTN-95-21364 I p 353 A95-78679
Sensitivity 01 supersonic aircraft modelling studies to "03 photolysis rate I HTN-95.11475 I p 353 A95-79453
Tracer transport for realistic aircraft emission scenanos calculated using a three-dimensional model I HTN-95-4 1799 I p 353 A9540525
Modeling of aircraft exhaust emissions and infrared Spectra lor remote measurement 01 nitrogen oxides I HTN-95-512761 p 355 A95-80861
Potential effects on ozone 01 future supersonic aircraft12D simulation I HTN-95-512821 p 356 A95-80867
Impact on ozone of high-speed stratosphenc aircraft Effects of the emission scenario I HTN-95-51283 I p356 A95-80868
Nitrogen oxide emisswns and their control from uninstalled aircraft engines in enclosed test cells Jan1 report l o Congress on the Environmental Protection Agency - Department of Transportation Study I PB95-1662371 p 358 N95-26005
Nitrous oxtde and methane ernisvonf from aero engines I HTN-95-213631 p 353 A95-78678
NITROUS OXIDES
NOISE PREDICTION Unsteady lift on a swept blade tip
[BTN-94-EIX95011441154] p329 A95-80030 NOISE REDUCTION
Noise impact of advanced hlgh lift systems I NASA-CR-195028 1 p 362 N95-26160
Jet mixer noise suppressor using acoustic feedback [NASA-CASE-LEW-15170-2 1 p362 N95-26187
NONDESTRUCTIVE TESTS Emsrgmg nondertruchve inspecton for agng awcrafl
I PB95-1430531 D 328 N95-2Y01 Proceedings of the 24 USAF Aging Aircraff
Confer en c e I AD-A288217 I p 336 N95-25578
Application of direct transcription to commercml aircraft NONLINEAR PROGRAMMING
trajectory optimization I BTN-95-EIX95242670766 1 p 359 A95-81081
NORTHERN HEMISPHERE North Atlantic air traffic within the lower stratosphere
Cruising times and corresponding emissions I HTN-95-918411 p 354 A95-80829
Internal performance characteristics 01 thrust-vectored axisymmetric elector nozzles I NASA-TM-4610 ] p 331 N95-25338
Internal performance characteristics 01 thrust-vectored
NASA-TM-4610 1 p 331 N95-25338
NOZZLE DESIGN
NOZZLE EFFICIENCY
axisymmetnc ejector nozzles
NOZZLE GEOMETRY Thrust measurement in a 2-D scrampi nozzle
p 339 N95-25397
Supersonic quiet-tunnel development for laminar-turbulent transition research I NASA-CR-198040 I p 340 N95.24302
Guidance and control. 1993. Annual Rocky Mountain Gutdance and Control Conference. 16th. Keystone. CO. Feb 6-10. 1993 I ISBN-0-87703-365-X I p 341 A9540389
The Cassini spacecraft O b ~ c t onented fllght control software p 359 A9580405
A new guidance and flight control system for the DELTA 2 launch vehicle --- Abstract only p 342 A95-80427
NOZZLE WALLS
NUMERICAL CONTROL
0 OBJECT-ORIENTED PROGRAMMING
The Cassini spacecraft Ob@ cmented flight control
OBLIOUE SHOCK WAVES software p 359 A9540405
Structure of a double-fin turbulent interaction at high
p 347 A95-79236 speed I BTN-95-EIX95222650780 1
ONE DIMENSIONAL FLOW Recent imprwements to and validation 01 the one
dimenswnal NASA wave rotor model I NASA-TM-1069131 p 332 N95-25962
Quantitydistance requirements lor earth-bermed aircraft OPERATIONAL HAZARDS
Shellers I ADA279692 I p 341 N95-24424
OPTICAL FIBERS Preliminary expenments 01 an optical fiber display
1 NAL-TR-12571 p 362 N95-25004 OPTICAL MEASUREMENT
Laser dence lor measunng a vessel3 speed
Angular displacement measunng device 1 HTN-95-60992 1 p 361 A9540633
I NASA-CASE-ARC-1 1937-1 ] p 362 N95-26015
The 1994 Fiber Optic Sensorsfor Aerospace Technology (FOSAT) Workshop I NASA-CP-10166 1 p 337 N95-24207
OPTICAL TRACKING Orientation determination of OirNaH uung wsual 3D
matching and radar Case study 2 lPB95-165791 I P 350 N95.25749
JPRS report Sclence and technology Central Eurasia I JPRS-UST-94-018 I P 349 N95-24472
OPTICAL MEASURING INSTRUMENTS
omcs
OPTIMAL CONTROL Appllcatwn of direct transcnptwn to commercmI airwan
trapctwy optimuatwn I BTN-95-EIX95242670766 ] P 359 A95-81081
Fundamental mechanisms of aeroelaslic control mth control sudace and strain acluatwn 1 BTN-95-EIX95242670746 1 P 327 A9541101
Aerodynamic optimization studies on advanced arclutecture computers [ NASA-CR-1980451 P 330 N95-24379
[NASA-TM-1103461 P 335 N95-24629 AWodyMmiC shape optimization of mng and m n g - ~ y
conhguratmns uung control thm-y I NASA-CR-lOBO24 I P 335 N95-25334
Empirical corractions 01 the rigid rotor interactmn pot.nD.lof H2.H2 m the anractnre W n hmer features n the FIR absorphon spectra [HTN-95-41943] P 381 AM-81690
08CILUTINQ FLOW Expenmental study of flow separatton on an orcillabng
flap at Mach 2 4 1 BTN-95-EIX95222650792 1 P 329 A95-79248
On the rde of the outer region in the turbulent-boundary-layer bursting process [BTN-94-EIX95011441078 I P 348 A9541056
opTiwmoN
Geometric OMIyUS of wing 8ections
ORTHOHVDROGEN
OSCILLATIONS Flow due to an oscillating sphere and an expression
for unsteady drag on the sphere at finite Reynolds number [BTN-94-EIX95011441142] p 347 A95-81012
OXIDATION RESISTANCE Thermal barrier coating experience in the gas turbine
engine p 345 N95-26125
The distribution of hydrogen, nitrogen. and chlorine radicals in the lower stratosphere Implications for changes in 0 3 due to emission of NO(y) from supersonic aircraft I HTN-95-70935 I p 351 A95-78000
Meridional distributions of NO(X). NO(Y). and other species in the lower Statosphere and upper troposphere
OZONE
dunng AASE 2 p 352 A95-78009 I HTN-95-70944 1
Eflects on stratospheric ozone from high-speed civil transport SenSitmty to Stratosphenc aerosol loading [ HTN-95-918421 p 354 A95-80830
Potential effects on ozone of future supersonic aircraft12D simulation IHTN-95-51282 1 p 356 A95-80867
Impact on ozone 01 high-speed stratospheric aircraft Effects 01 the emisswn scenario I HTN-95-512831 p 356 A9540868
The atmospheric eflects 01 stratospheric aircraft A lourth program report [ NASA-RP-1359 I p 357 N95-24274
An analysis 01 aircraft exhaust plumes lorm accidental
p 351 A95-78008 Mendwnal distributions of NO(X). NO(Y) and other
specles in the lower statosphere and upper troposphere dunng AASE 2 1 HTN-95-70944 I p 352 A95-78009
Senvtmty of supersonic aircraft modelling studies to "03 photolysis rate [HTN-95.114751 p 353 A9579453
Enects on stratosphenc ozone from high-speed civil transport Sensitivity to stratospheric aerosol loading (HTN-95-918421 p 354 A95-80830
Hgh-speed c ~ i l transport impact Role of sulfate nitric acid trihydrate. and ice aerosols studied with a two-dimenswnal model including aerosol physics [ HTN-95-918431 p 354 A95-80831
Impact of present aircraft emissions of nitrogen oxides on tropospheric ozone and climate forcing [HTN-95.21364 I p 353 A9578679
OZONE DEPLETION
encounters I HTN-95-70943 I
OZONOSPHERE
P PANELS
Deslgn and evaluation of a loam-filled hat-stiffened panel concept for aircraff pnrnary structural applications I NASA-TM-I 091 75 I p 346 N95-26251
Empirical corrections 01 the rigid rotor interaction potential of HZ-HZ in the anractive region Dimer features in the FIR absorption spectra [HTN-95-419431 p 361 A9541690
PARAHVDROGEN
PARALLEL COMPUTERS Fault detection in multiprocessor systems and array
processors 1 BTN-95-EIX95242679097 I p 359 A9581253
Fault detection in mulborocessor svstems and anav PARALLEL PROCESSING (COMPUTERS)
proceaMxs I BTN-95-EIX95242679097 1 p 359 A95-81 253
Aerodynamic opbmizatlon studles on advanced architecture computers
p 330 N95-24379 [ NASACR-196045] The coupling of fluids. dynamics. and controls on
advanced architactwe computers [NASA-CR-197727 1 p 360 N95-25797
Impact 01 naarcolncident faults on dlgital flight control
p 359 A95-81088 Identificatmn and umulation evalualion of a combat
[ BTN-9SEIX95242670749 1 p 335 A9541098
PARAMETER IDENTlFlCATlON
systems [ BTN-95-EIX95242670759 I
helropter m howr
A.rodyrumc parameter aslimabon w Fwner moduhbng lunctlan tachrugwl [ NASA-CR-46541 p 335 N95-24630
[ IFTR-13/1994 1 P 361 N95-26330
Sludy of subsonic base canty flowfield structure using particle image velocimetry I BTN-95-EIX95222650781 I P 327 A9579237
Actuating sylnals in adaptwe control systems
PARTICLE IMAOE VELOCIMETRV
A-12
SUBJECT INDEX REDUNDANCY
Flow structure m lhe lee of an inckned 6 1 prolate spheroK1 IBTN-94-EIX95011441127] p348 A95-81027
P m c l € s m m m t m o N
of a J85-GE-5L 1- ergme Theen& of on me partlck emsswns
I NASA-TM-106669 I p339 ~95-24m1 PIssEwoERAIAcR*FT
Nooe l m p ~ of advanced hgh M( syslem 1 NASACR-l95OZB] p362 N95-26160
SOFIA Sbatosphenc obrervatay lor Infrared AStmnomy p363 A9181583
Effect of hhn CDoknglregeOerabve mdmg on scramjet engne- INAL-TR-12421 p339 -24990
--TESTS
-RFoRy*wQPREmcmm
FW refarence daplay la powaed-kn sTcn-n INAL-TR-1251 I p337 N9525Mw
~~~psrlormancecherpctenmaofmnst-vectaed
W l n d t e d m b g y ~ L a r g e w d s n U i l
- ~ 6 i e c t o f n o n ( e s INASA-TKIGlO] p331 N95-25338
turbmes I DE9Moo2861 p358 N95-WHO
Hqh-rpeed ani Iran- impact Role of suttate. ntnc acld tnhybnte. and re ~eroso~s rtucred nm a
MIsETR*wsFoRy~l"S
*-I model ldudmg aBoIol phyuc+ I HTN-95-91643 1 P 3 Y A95-80831
WTOCHEYICUREIcTKms Hq~weedcwItranwonnnpact RoleofsJtate.nbr
acld hhydrate. and ce aerosols SM mm a *oannerWnal~mClUdlngaemsolphyvct IHTN-9591643] P 3 Y A9180831
Chemral caprmbon and photochemcal raa~bvdy of exhaust from m n (rrkna en~nes I HTN-95-512771 P356 A95EWBz
The abnorphenc effects of IQBtOSphers arcran A fm wogram rewct I NASA-RP-1359 1 p357 N95-24274
PHoToLISls Senwtmty of srrperromc ~nnatt rode~ng S&IS to
"03 photolys~~ rate IHTN-95-114751 p353 A9579453
WTOYETERS AnguIar dwlacement m e a m denoe
I NASA-CASE-ARCt1937.1l p362 N9526015
The 1994 Flber Opac Se-tor Aerosp.ceTechslqn FOSATI Workshop INASA-CP-101661 p337 -24207
PMOTOW
MOTOVOLTAIC M m V E m W d techolw development Large and rmsll
I DE91D00286 I p358 N9526090 turbines
PIPER AIRCRAFT Annat( acudent repor( I m w urn, Mast tence ,pn~
landing rollout Acbon Air chwm f@ht 990 Rpn PA-31 350 N99ORA. Stratford Connecl~ut.27 April 1994 IPB94-910410] p333 N95-242%
PITCHING WWIENTS DVMm stall axltrol fa edvarred rdacnn
aPDllcaaon I BTN-9S-EIX95222650793 I p334 A9579249
Thermal condrcbnty of nax*a thema1 bma p345 N95-26133
An anaiysu of maaft exhaust pkmer tam .mdenpI ew0mi.m I HTN-95-70913 I p351 A95-m
Dvnanucs of arcraft extraust pkanes n the pt-rqlme I HTN-95-51275 I p355 A9580860
The atmosphenc effecls of Jtntosphenc 8.cRn A f w m r e w c t I NASA-RP-13591 p357 -24214
acquwton. b.dung. and panting
PLASW SPRAYING
PLUYES
PoINTlffi CowTROL s v m y s Applaaon Of funy bglc to opnme pl.csmern of an
0341 AB5-80390
Ims5-7Os4.9] p352 A9578013 ot troprrl au during
AASEZ fHTN-S709491 p 3 y A9578014
#K*RREwoWs Lmhde wpbaa ofstratosphenctraceo.rep
F-. miaward
rouRpEDu(y(T
-cwRoL Angular~cememmeasonngdencs
INASA-CASE-ARCti937.i] p3b2 N9526015
Small gasturbme COmpOnent evauatm sbdy I -95-147542 1 p338 N95-24293
mOPOimOlULcowtoL
mopuLslow ideal proportlooal nangaw p 342 A9181374
Advanced subsonic airplane desgn and ecorwmK: Std8 .S I NASACR-195443 1 p338 N95-24304
WorkshDp r- Measurement technques in highly banrent. spectrally nd, combrstron emnronments [ ADA286395 I p350 N95-25606
Development of a model protection and dynamc response monRamg system for the natmal transonic faakhl [NASACR-1950411 p340 N95-24388
JPRS Report Saence vd tfXhdogy Central
PRmcTIow
PVBUCHEAL~
E- ~JpRSUST44032I p 3 M N95-24759
Q
R
A-1 3
REENTRY GUIDANCE SUBJECT INDEX
REENTRY GUIDANCE Reentry guidance lor hypersonlc Flight Experiment
(HYFLEX) vehicle I NAL-TR-1235 I p 334 N95-25764
REENTRY VEHICLES Hypersonic model testing in a shock tunnel
[ BTN-95-EIX95222650789 p 329 A95-79245
Eflect of film coolinglregenerattve cwling on scramjet engine performances INAL-TR-1242l p 339 N95-24990
Design and evaluation of a loam-filled hal-stiftened panel concept lor aircraft primary structural applications [ NASA-TM-109175] p 346 N95-26251
Impact of near-coincident faults on digital flight control
REGENERATIVE COOLING
REINFORCEMENT (STRUCTURES)
RELIABILITY ANALYSIS
systems I BTN-95-EIX95242670759 I p 359 A9581088
Interfacing a digital compass to a remote-controlled
1 PB95-164927 I p 340 N95-24260
REMOTE CONTROL
hekopter
REMOTE SENSING Laser devue lor measunng a vewl's sped
I HTN-95-60992 I p 361 A95-80633 Modeling 0 1 aircraft exhaust emissions and infrared
spectra for remote measurement 01 nitrogen oxides I HTN-95.51276) p 355 A95-80861
Preliminary analysis 01 Unwersity of North Dakota aircraft data from the FIRE Cirrus IFO-2 I NASA-CR- 198038 I p 357 N95-24219
Turbine-engine applications 01 thermographic-phosphor temperature measurements I DE95-003625 I p 358 N95-25110
Characterizing tne wake vonex signature lor an actwe line of sight remote sensor I NASA-CR-I 97697 1 P 333 N95-24391
Interlacing a digital compass to a remote-controlled
REMOTE SENSORS
REMOTELY PILOTED VEHICLES
helicopter I PB95-164927 I p 340 N95-24260
RESEARCH AIRCRAFT A quiet STOL Research Aircraft Development program
I NAL-TR-1223 I p 336 N95-25862
Federal Aviation Administration plan lor research
p 363 N95-24202 JPRS report Science and technology Central Eurasla
I JPRS UST-94-027 I p 349 N95-24470 JPRS repon Science and technology Central Eurawa
I JPRS UST-94-0181 p 349 N95-24472 JPRS report Science and technology Central Eurasla
I JPRS-UST-gS-Ot l I p 335 N95-24541 Assessment 01 avwnics technology in European
aerospace organizations
RESEARCH ANDDEVELOPMENT
engineering and development, 1995
INASA-CR-I89201] p 337 N95-24624 JPRS Report Science and technology Central
Eurasia I JPRS-UST-94-032 I p 3 M N95-24759
Residual Stress Measurements with Laser Speckle Correlation Interferometry and Local Heat Treating I DE95-060082 I p 349 N95-24598
Flow due to an oscillating sphere and an expresston tor unsteady drag on the sphere at finite Reynolds number lBTN-94-EIX9501~441142] p 347 A95-81012
Flow structure in the lee 01 an inclined 6 1 prolate spheroid I BTN-94-EIX95011441127 P 348 A9581027
Expenmental study 01 the eflects of Reynolds number on high angle 01 snack aerodynamic characteristics of lorebodies dunng rotary molwn INASA-CR.195033 1 P330 N95-24443
Report to Congresoional Committees Tactual Aircraft Concurrency in development and production of F.22 aircraft should be reduced I GAOINSIAD-95-59 1 P336 N95-26338
Estlmate 01 probability 01 crack detecton from BBMCB difliculty report data 1 PB95-I 49381 1 P 3 2 8 N95-24295
Gudance and Control. 1903. Anwal Rocky Mountam Guidance and Control Conference. 16th. Keystone, CO. Feb 6-10. 1993 I ISBN-0-87703-365-X 1 p 341 A9580389
Hgh-perfOrrnanCe. robust. bank-leturn missile autopilot
BTN-95-EIX95242670751] p 336 A9541096
RESIDUAL STRESS
REYNOLDS NUMBER
RISK
RIVETED JOINTS
ROBOT CONTROL
ROBUSTNESS (MATHEMATICS)
desgn
Robust dynamic inverwon lor control 01 highly maneuverable aircraft I BTN-95-EIX95242670747 1 p359 A9581100
Flow structure in the lee 01 an inclined 6 1 prolate spheroid [BTN-94-ElX95011441127 I p 348 A95-81027
Expenmental Study 01 the eflects of Reynolds number on high angle of attack aerodynamic characteristics 01 lorebodies dunng rotary motion I NASA-CR-195033) p 330 N95-24443
Dynamic Stall control lor advanced rotorcraft appluatwn I BTN-95-EIX95222650793 1 p 334 A9579249
Multilevel decomposition procedure lor eflicient dewgn Optimuatlon of helicopter rotor blades I BTN-95-EIX95222650784 I p 334 A95-79240
Dynamic stall control lor advanced rotorcraft application
ROLLING MOMENTS
ROTARY STABILITY
ROTARY WING AIRCRAFT
ROTARY WINGS
I BTN-95-EIX95222650793 I p 334 A9579249
Modal charactenstus of rotors uwng a conical shaft finite element I BTN-94-EIX94401359745 1 p 346 A95-77379
ROTATION Aspect estimation of an aircraft uwng library model
wlhouenes lPB95-1418341 p360 N95-25894
Multilevel decomposibon procedure for efliwnt dewgn Ophmuabon of helicopter rotor Mades
p 334 A9579240 [ BTN-95-EIX95222650784 ] Recent improvements to and validation 01 the one
dimenslonal NASA wave rotor model [NASA-TM-1069131 p 332 N95-25962
Multilevel deCOmpowtwn procedure for eflclent desgn Optimuatwn 01 helicopter rotor blades
p 334 A95-79240 I BTN-95-EIX95222650784 1 Dynamic behavior 01 a magnetic beanng supported jet
engine rotor mth auxillary beanngs [NASA-CR-197860 I p 338 N95-24213
Thermohydrodynamic analysis of cryogenu ltqutd turbulent flow flwd film beanngs. phase 2 I NASACR-1974121 p 349 N95-24461
ROTORS Modal charactenslus of rotors uwng a conual shaft finite
element IBTN-94-EIX94401359745 1 p 346 A95-77379
Oynamu behanor of a magnetic beanng supported jet engine rotor mth auxillary beanngs
ROTATING SHAFTS
ROTOR AERODYNAMICS
ROTOR DVNAMICS
[NASA-CR-l97860I p338 N95-24213 Explantory flow nsualizabon investigatwn 01
mast-mounted sghts in pr-nce 01 a rotor [NASA-TM-46341 p 330 N95-24566
Recent imprwements lo and validation 01 the one dimenswnal NASA wave rotor model I NASA-TM-106913 I p 332 N95-25962
[DE95-607662] p 362 N95-25978
A i m f t acadent report Impact mth blast lence upon land- rollout A c W Cur Charters flght 990 Piper PA-31 -350. N99ORA. Stratlord. Connecluut.27 Apnl 1994 I PB94-9tWlOl p333 N9524206
JPRS report Saence and technology Central Ewasla [JPRSUST-944271 p 349 N95-24470
JPRS report. Snence and technology Central Eurasia [JPRSUST-94418] p 349 N95-24472
JPRS Report Scmce and tachdogy Centrat E- ( JPRSUST-94-032 1 p 350 N95-24759
Dynamics of phase ordenng of nematics in a pore
RUNWAYS
RUSSIAN FEDERATION
S s*TEuITE TRACKING
~ppkubon of fuzzy bgic to whmae placmwnt 01 M
p341 Ags-80390
Heat ba11~1er measurements in mall .uk, wmd tun& [ADA2886891 p341 N95-28053
Development 01 an interventwn FJrOgram to encourage shoulder hamess use and aircraft retrofit in general aVlebon aircraft. phases 1 and 2 IWTIFAAIAM-95I21 p 333 N95-24384
.cqul.lbon. tracking. and w n b w expennnnt
SWLENODELS
SEAT BELTS
SEATS Analysis 01 warping eflects on the static and dynamic
I NIAR-94-12 1 p 348 N95-2421 I
Internal performance charactenstics of thrust-vectored
p 331 N95-25338
response of a seat-type structure
SECONDARY FLOW
axisymmetric ejector nozzles I NASA-TM-46101
SENSORS The 1994 Fiber Ootic Sensorsfor AerosPaceTShnolWY
(FOSAT) Workshop !NASA-CP-101661 p 337 N95-24207
SERVICE LIFE An overview 01 Health and usage Monitoring Systems
(HUMS) lor military helicopters I DSTO-TR-0061 I p 327 N95-24200
Helicopter life substantiation Review of Some USA and UK initiatives p 328 N95-24201 IDSTO-TR-0062 1
Proceedings of the 26 USAF Aging Aircraft Conference I AD-A288217 I p 336 N95-25578
p 345 N95-26126 PVD TBC expenence on GE aircraft engines
SHAPE FUNCTIONS Geometnc analysis 01 mng sections
INASA-TM-1103461 p 335 N95-24629
Eflect 01 density gradients in conlined supersonic shear SHEARLAVERS
layers. part 1 1 NASA-CR-198029 1 p 348 N95-24412
Effect 01 denwty gradients in confined supersonic Shear layers Part 2 3-0 modes I NASA-CR-198030 I p 349 N95-24413
SHELTERS -~ Quantitydistance requirements for earth-bermed aircraft
p 341 N95-24424
The Supermtxtal Expanuon Tube concept. experiment and analws p 341 N95-25399
Shock tunnel studies of scramjet phenomena 1993 I NASA-CR-195038 I p 350 N95-25394
The Superorbital Expansion Tube concept. experiment and a M l p S p 341 N95-25399
The Superorbital Expanslon Tube concept. experiment and analysis p 341 N95-25399
Shock tunnel studies of scramjet phenomena 1993 p 350 N95-25394 [NASACR-1950381
Thrust measurements 01 a complete axisymmetric scramjet in an impulse facility p 339 N95-25395
Scramjet thrust measurement in a shock tunnel p 339 N95-25396
Balances f a the measurement of mulhple components
p 350 N95-25400
StruCture 01 a double-fin turbulent interaction 81 high
p 347 A9579236
Shock tunnel studies 01 scramlet phenomena 1993 I NASACR-1950381 p 350 N95-25394
Scram@ thrust measurement in a shock tunnel p339 N95-25396
Flght reference display lor powered-lift STOL aircraft [NAL-TR-1251] p337 N95-29305
A qulet STOL Research Aircraft Development program [NAL-TR-12231 p 336 N95-25862
Impact. lnctwn. and wear testing of microsamples 01 polycrystalline sllhmn p 361 A95-79988
NASA-UVa lght aerospace alloy and structures technology program supplement Aluminum-based materials lor hlgh speed aircraft [ NASA-CR-4645 1
shelters [ADA2796921
SHOCK HEATING
SHOCK TESTS
SHOCK TUBES
SHOCK TUNNELS
01 force in flows of a millisecond duratwn
SHOCK WAVE INTERACTION
tpeed [ BTN-95-EIX95222650780 I
SHOCK WAVES
SHORT TAKEOFF AIRCRAFT
SILICON COMPOUNDS
SILVER ALLOYS
p 343 N95-24878 8lYILARITT NUMBERS
Dmilmty le for jet-temperature eflects on transonic
p 329 A95-79247
Oract .d.ptnm and wwal mtrol of mng-rock motwn olsbndudeltamngs [ BTN-95-EIX95242670748 I p 327 A9541099
SOFIA Stratwphenc Observatory lor lnlrared Astronomy p 363 A9541583
Long endurance StratOsphenC Solar powered airship [PB95-1787291 P336 N95-26009
base pr-e [BTN-95-EIX952226507911
SLENDER W l W
SOFIA (AIRBORNE OBSERVATORY)
SOLAR POWERED AIRCRAFT
A-14
SUBJECT INDEX SUPERSONIC AIRCRAFT
SOLD MECHAMS NASA-UVA Ight aerospace alloy and slructures
INASAGR 198041 1 p343 N95-24220
The e% of allmde c o n d i b m o n l h e ~ ~ ~ of a J85GE-5L turbqet ergme 1 NASA-TM-106669 I p339 N95-24561
lechnocom, pogram IUUST)
SOOT
SPACE U P L O R " NASA video catalog
I NASA-SP-7109(01)] p363 N95-24238
Gudance and control. 1993. Annual Rocky Hountam Gutdance and Cmtrol Conference. 16m. Keystone. CO.
SPACE NAVIGATION
Feb 610. 1993 I ISBW7703-365-x 1 p341 A918w84
Descnbnoan- p342 A9580409
PerfamanceofanaerodyMnncyawcamDllermounted on lhespaceshume -body flap at Mach 10 I NASA-TM-1091791 p330 N95-24397
Gudance and mobol. 1993. Annual Rocky Mountmn Gudance and contmr Conference. 16th. K W . CO. Feb 610 1993
s P * c L s t u R n E ~
SP*cLcRAFTcoNTRaL
I ISBN08T703-361X 1 p341 AB58wB9 TheCa+rruspacecrsnObpctonemedtkgMcDnbol
soflware p359 MM8Mo5 Performance of an aerodynsmc yaw COnlmller momled
I NASA-M-109179 I p330 -24397
Gutdance and conbpl conterence 16th. K e y s o n e . CO
on me spaceohuloe orkterbodyflapaat Mach 10
SPACECRIFT DESIGN Gudance and fomrol 1993 Annual Rocky
Feb 610 1993 I ISBN087703-365-Xj p341 A9580389
SPACECRAFT GUIDANCE Gutdance and conwol 1993. Annual Rodry Momtam
Gutdance and CMrol Conference. 16th. K e y g o n e . CO. Feb 610 1993 I 1SBN087703-365-X] p341 ABs-80369
SPACECRAFT lllsTRllyEwTs Gumlance and control. 1993. Annual fiocky
Gudance and conbol GmWenu~ 16m. K e y S a m . CO. F e b 610 1993 I ISBN087703-365X] p341 A95m389
IBTN 95ElX952426707541 p342 A9501093
SPACECRAFT MANEUVERS bnam and control of a tethered lbghl VeMe
Grndance and control. 1993. AIWMI Rocky )rbunon Gwdance and CMrOl Conference 16th. K-. CO.
SPACECRAFT PERFORUAWCE
Feb 6 1 0 1993 I ISBN087703-365XI p341 A!E40389
and analysts p341 N95-2fi399
SPACECRIFT REEWTRY The SuPerorMal Expanzwn Tube cmuwpL expemem
SPAUIMG Thermal barner coabng Me modehg n Matt gas
-ne en(ples p346 N95-26140 SPECIFIC HEAT
STROUHAL"BER Expenmental nnrestrgatm of me fm around a arcuIar
cylmder Influence d aspect ram I BTK94-EIX950114411ZOl p347 A 9 1 8 0 0 4
Flow due lo an osclltating sphere and an -Yon for unsteady drag on the sphere al finite Reynolds number [BTN-94-EIX95011441142 I p347 A9581012
Aeroservoelastic aspects of winglcontrol surface planform stwe
STRucTwlu AwursLs
p340 A95-79251 BTN-95-EIX95222650795 1 sTRuFtuRuDEsKul
M u h k v e l ~ p a e d u r e f a e t h o e n t d e s l g n
[BTN-95-EIXssP2650784I p334 -79240 DeqFandevaluPtmofafmfdkd hat-smtenedpsnel
I NASA-TM-1091751 p346 N95-26251
NASA-UVA lghl awspace alloy and Bbucues
[ NASA-CR-1980411 p343 N95-24220
ImlnNram of helropter mta Mades
concspltorsrasnpmpry~alPpphcobw
STRucTURu-
techmrogvpqpun l~T1
I JpRSUST-gcO27 JpRs - - I m d - = 7 % r E 2 % sTRucTuRuveRATloll
ma- of mtm usmg a co~cai shaft- emnent [BTN-94-EIX944013597451 p346 A9577379
suBsonK:IIIRcR*FT A n ~ o f ~ e r m a u s t p a n n e s f m o c o d e n l a l
encouwm [HTK9570943 I p351 A95-7WW
A r h n c d vrbsmc airplane desgn and economtc SlUdBeS INASACR-195431 p338 N95-24304
!WmSoWcRI)W Study of s&sornc bpse canty QmMd bmcBre ustng
UnsteadyLnonaneptbladeBp
ParUdelmage~oamebY [BTN-95EIX952226507811 p327 A95-79237
IBTN-94-EIX950114411541 p329 A95-8o030 H g h frequency flow-structural mnencmn n dense
SdmolucMS [NASAGR4652] p330 N9524217
Effectt of cavlry dimensions. boundary layer. and ~ t u r e o n c a n ( y m s e ~ ~ o n l I m d m w k data lo vahdale cunvulabonaf aeroamusbc codes
p361 N95-24879 I NASA-CR-4653 1
o f ~ l H L F C e r f o l s m h g h s I & S O m c hgh
I NAL-TR-1 2cOTl p331 -24998
N M e n c l l l a n d ~ l ~ o f a s g c h a n c t e n s t r s
ReynoldsRmberflarr
SUeSOWIC- Fundamental *md bme( eqemmls oh brapeed
fluner of a bp-hn umftgumlm mg [ NAL-TR-1228 1 p332 NS5-25762
N o s e ~ O f ~ncedhghhnsyrilens [NASAGR-l95028J p362 N95-26160
~ n v e r b g a b o n o f l h e f l a r s m n d a c r a d a r cylnda-of.rpectr-0 (BT?4-94-EtX95011441120] p347 A9500044
~cMIlranspatnpsctRoleofsulfate tninc .ad Inhydrate. and tw BeroIolh stmid wm a ~ l m o d e l n c * d n p a a o s o l P h Y S l C S (H7Kss918431 p 3 Y A958oB31
A n ~ o f F l o r ~ of alf ide Aircraft results for
u m m m m o m . t m e ~ - l n n u m l e v e l [ HTN-9591 e571 p355 A958Mu5
An intercompanson of aircraft instrumentabcm for aopDIphsr rmsuuamentsofsunu~ ["-95-91855 1 p354 A958Mu3
SuperroohgnbP=--cmmgen-- BTKIu-€lxBso11441134 1 p340 A9581020
The &&~~IuI of hyaogen. ntmgen. and chlorine n&aisnthelo*rerdntorphereforchanges m 03 ba weamwn of ND(y) han supao~ncrCnn r-95-709351 p351 A95-78wo
-ofroaar-modsyne-@
p353 A95-79453 ~ P h o l D l Y r c -
En&ls m mDnehan h$npmrJ MI1 ( r s n s p m ~ I O ~ - l o a d n g [ "-95918421 p 3 Y AB580830
~ s p w d c m ( t r w p a ( m p . c t RoleofsuHale. tninc sod Inhydra*. and DX aemsols stmid w m a ~ m a d e l ~ a e m e o l ~ I HTN-95-918431 p354 A958oB31
swsoNlc SPEW
sucTK))I
SULFATES
SULFmEs
SUwRMou#5 - SUPERSOWICuRcRAlT
["-95-11475]
A-15
SUPERSONIC COMBUSTION SUBJECT INDEX
Potential effects on ozone of future supersonic aircraft/ 20 simulation I HTN-95-51282 I p 356 A95-80867
Effect of density gradients in confined supersonic shear
I NASA-CR-198029] p 348 N95-24412 Eflect of density gradlenls in conhned supersonic skar
I NASA-CR-1980301 p 349 N95-24413
SUPERSONIC COMBUSTION
layers, part 1
layers Part 2 3-0 modes
SUPERSONIC COMBUSTION RAMJET ENGINES Effect of film coolingfregenerative cooling on scramlet
engine performances INAL-TR-12421 p 339 N95-24990
Shock tunnel studies of scramjet phenomena 1993 I NASA-CR-195038 I p 350 N95-25394
Thrust measurements of a complete axisymmetnc scrampt in an impulse facility p 339 N95-25395
Scramlet thrust measurement in a shock tunnel p 339 N95-25396
Thrust measurement in a 2-0 scramlet nozzle p 339 N95-25397
Balances for the measurement of multiple components
p 350 N95-25400
Ouentitatlve companson between interferometnc measurements and Euler computatlons lor supersonic cone flows I BTN-95-EIX95222650782 1 p 358 A95-79238
Experimental study 01 flow separation on an oscillating flap at Mach 2 4 I BTN-95-EIX95222650792 I p 329 A95-79248
Unsteady lift on a swept blade bp IBTN-94-EIX95011441154] p 329 A95-80030
Eflect of film coolingfregeneratrve cooling on scramjet engine performances INAL-TR-12421 p 339 N95-24990
A theoretical and expenmental imestigatlon of the flow over supersonic leading edge mngfbody configuralions I DRA-TM-AERO-PROP-41I p 331 N95-25649
Aerodynamic charactenstics 01 theorbital reentry vehicle expenmental p r c b fins in a supersonic flow I NAL TR-1232 I p342 N95-25€64
Prediction of supersonic inlet unstan caused by
of force in flows of a millisecond duration
SUPERSONIC FLOW
SUPERSONIC INLETS
freestream disturbances I BTN~95~EIX95222650790 I p 329 A95-79246
SUPERSONIC SPEED Effect of density gradients in confined supersonic shear
layers part 1 I NASA CR 198029 I p 348 N95-24412
SUPERSONIC TRANSPORTS The atmospheric eflects of stratosphefic aircraft A
fourth program report I NASA-RP 1359 I p 357 N95-24274
Study 01 compressible flow thrwgh a rectangular-to-semiannular transition duct I NASA-CR-4660 I p 338 N95-24392
A crew-centered flight deck design philosophy for High-speed Civil Transport (HSCT) aircraft INASA-TM-109171 I p 335 N95-24582
NASA-UVa light aerospace alloy and structures technology program supplement Aluminum-based materials for hgh speed aircraft I NASA-CR-4645 I p 343 N95-24878
Supersonic quiet-tunnel development for laminar-turbulent transition research I NASACR-1980401 p 340 N95-24302
Measurements of longitudinal static aerodynamic
SUPERSONIC WIND TUNNELS
SUPPORTS
coeflinents by the cable mount system I NAL-TR-12261 p 331 N95-25761
SUPPRESSORS Jet mixer nmse suppressor usmg acoustic feedback
I NASA-CASE-LEW-15170-21 p 362 N95-26187
Thermal fracture mechanisms in ceramic thermal bamer coatings p 346 N95-26138
High-speed CNII transpon impact Role of sunate. nitnc acid tnhydrate. and Ee aerosols studied mth a WmenscoMI model includtng i ~ o s o l phyacs I HTN-95-91843 p354 A0580831
Ideal profmtwnal navlgalmn p 342 A9181374
Development 01 an mtervenlmn program to encourage shoulder hamess use and mmaH retrolll in general awlmn
1 DOTlFAAlAM-95/2] p 333 N95-24384
Threedimenswnal interaceon 01 wakelboundary-layer and vorlexfboundary-layer data report [CUED/A-AEREOlTR-23 1 p 329 N95-24210
SURFACECRACKS
SURFACE REACTIONS
SURFACE TO AIR MISSILES
SURVEYS
WNaft. phases 1 and 2
SWEPT WINGS
A-16
Aerodynamic shape optimization of wing and wing-body configurations using control theory [NASACR-1980241 p 335 N95-25334
Dynamic imaging and RCS measurements of aircraft p 347 A95-78576
SYSTEMS ANALYSIS Determination 01 piloting feedback structures for an
altitude tracking task I BTN-95-EIX95242670770 I p 327 A9541077
Application of direct transcription to commercial aircraft trajectory optimization I BTN.95-EIX95242670766 p 359 A95-81081
SYNTHETIC APERTURE RADAR
1 BTN-95-EIX95202637582 I
SYSTEMS STABILITY Actuating signals in adaptive control systems
I IFTR-1 3f 1994 I p 361 N95-26330
T 7-53 ENGINE
Assessment of overhaul surge margin lest5 applied to the T53 engines in ADF Iroquois klicopters I AR-008-389 1 p 339 N95-25936
Applicatwn of fuzzy logic to optimize placement of an
p 341 A95-80390
SR-71 my launch targets for missile defense tests I HTN-95-918721 p 335 A9541974
JPRS report Sclence and technology Central Euraua 1 JPRS-UST-94-027 I p 349 N95-24470
JPRS report Scmnce and technology Central Euraua I JPRS-UST-94-018I p 349 N95-24472
JPRS Report Sclence and technology Central Eurasla 1 JPRS-UST-94-032 I p 350 N95-24759
Assessment 01 avionics technology in European aerospace organmtmns [NASA-CR-189201 I p 337 N95-24624
Wind technology development Large and small turknes I DE95-000286 I p358 N95-26090
Aviation system upacity improvements thrwgh technology I NASA-TM-109165 I p 333 N95-24633
Gudance and control. 1993 Annual Rocky Mountain Gudance and Gmvol Conference. 16th. Keystone. CO. Feb 610,1993 I ISBN-047703-365-X 1 p341 A9580389
TEMPERATURE EFFECTS Prediction of supersonic inlet unstart caused by
freestream disturbances [ BTN-95-EIX95222650790j p 329 A95-70246
Snulanty rule for pt-temperature effects on transonic base preuure
p 329 A9579247 Effects of cavity dimensions. boundary layer. and
temperature on caw nome mth emphasis on benchmark data to valdate computaeonal aeroacoustic codes I NASA-CR-4653 I p 361 N95-24879
Turkneengine applications 01 thermographic-phosphor temperature measurements I DE95003625 1 p358 N95-25110
Study on tenslle lalgue testing method of urudirecmnal fiber-cesm matnx compoutes [NAL-TR-1241] p 343 N95-24989
Pam1 camera automation in a simulated Unmanned Air
ADA2887861 p337 N95-26190
The -tal Expanuon Tube concept. expenment and analysis p341 N95-25399
Dymmcr and control of a telhered fllght vehicle
TARGET ACOUISITION
a c q u m . tracking. and pointing expenment
TARGET DRONE AIRCRAFT
TECHNOLOGIES
TECHNOLOGY ASSESSMENT
TECHNOLOGY UTlLlUTlON
TELEROBOTlCS
I BTN-95-EIX952226507911
TEMPERATURE MEASUREMENT
TENSILE STRENGTH
TERRAIN
VehlCle
TEST FACILITIES
TETHERED SATELLITES
1 BTN-05EIX95242670754 1 p 342 A9581093
Dynamm and control of a tethered fllght vehcle I BTN-BSEIX95242670754 1 p342 A9581093
Thennohydrodynamic analysis of cryogenic liquid turbulent flow Hwd film beanngs. phase 2 1 NASA-CR-1974121 p 349 N95-24461
Thermal conducbvlty 01 Zircmia thermal bamer coatings p 345 N95-26133
TETHERING
THERMAL ANALYSIS
THERMAL CONDUCTIVITY
THERMAL CONTROL COATINGS Thermal Barrier Coaling Workshop
A design perspective on thermal barrier coatings NASA-CP-10170 I p 344 N95-26119
0 344 N95-26120
Thermal barrier coatings for aircraft engines HlStOry and directions p 344 N95-26121
Thermal barrier coatings issues in advanced land-based gas turbines p 344 N95-26122
Measurement methods and standards for PrOceSSlng ._. and application of thermal barrier coatings
p 344 N95-26123 Thermal barrier coatings application In diesel engines
p 345 N95-26124 Thermal barrier coating experience In the gas turbine
engine p 345 N95.26125 PVD TBC experience on GE aircraft engines
p 345 N95-26126 Perspective on thermal barrier coatings for industrial gas
turbine applications p 345 N95-26128 Thermal conductivity of zirconia thermal bamer
coatings p 345 N95-26133 Thermal fracture mechanisms in ceramic thermal barrier
coatings p 346 N95-26138 Thermal barner coating life modeling in aircraft gas
turbine engines p 346 N95-26140
Thermal baner coaling experience in the gas turbine engine p 345 N95-26125
Thermal fracture mechanisms in ceramic thermal barrier coatings p 346 N95-26138
Tuftnnesngine applications of thermographic-phosphor temperature measurements
p 358 N95-25110 1 DE95-003625 I Emerging nondestructlve inspection for aging aircraft
1PB95-143053 I p 328 N95-25401
Consistent approach to descnbing aircraft HlRF
THERMAL INSJUTION
THERMAL STRESSES
THERMOGRAPHY
THREAT EVALUATION
protection p 334 N95-25341
Quantilalne comDarison between interferometric
1 NASA-CR-195067 I THREE DIMENSIONAL FLOW
measurements and Euler computations for Supersonic cone flows 1 BTN-95-EIX95222650782 I p 358 A95-79238
Threedimensional interaction of wakelboundary-layer and vortexlboundary-layer data report [ CUEDlA-AEREO/TR-23 I p 329 N95-24210
Tracer transport for realistic aircraft emission scenarios calculated uung a threedimenuonal model [HTN-95-41799 I p 353 A9540525
Orientation determination of aircraft uung nsual 30 matching and radar Case study 2 [PB95-165791 I p 350 N95-25749
Effect 01 density gradients in confined supersonic shear layers Part 2 3-0 modes [NASA-CR-198030) p 349 N95-24413
THRESHOLOS (PERCEPTION) Visual contrast detection thresholds for aircrafl
con mi ls p 328 N95-25607 IADA288618l
THREE DIMENSIONAL YODELS
THREE DIMENSIONAL MOTION
THRUST Thrust measurement in a 2-0 scramlet nonle
p 339 N95-25397
Thrust measurements of a complete axisymmetrlc scrampt in an impulse facility p 339 N95-25395
Scrarnjel must measurement in a shock tunnel p 339 N95-25396
Thrust measurement in a 2-0 oaamyl nonle p 339 N95-25397
Balances for the measurement of multiple components
p 350 N95-25400
Internal performance charactenstics of thrust-vectored
p 331 N95-25338
Identdicatlon of awtwn weather hazards based on the
p356 A9540908
THRUSTMEASUREMENT
of force in flows 01 a mllisecond duratmn
THRUST VECTOR CONTROL
axisymmetnc .lector nozzles 1 NASA-TM-4610 I
THUNDERSTORMS
integralion of radar and llghtning data 1 HTN-05.51323 1
TIME MPENDENCE OYIU~~CS of phase wdannp of nematics in a pore
I DE858076621 P 362 N95-25978
Emerging nondeslruCtNe inspection for aging aircraft [PB95-1430531 P 328 N95-25401
Partial camera automallon in a simulated Unmanned Air
P 337 N95-26190
TOUOQRAPHY
TOPOGRAPHY
Vehrle [ ADA288786 I
VORTEX AVOIDANCE
U
u-yFU)w pr&tion 01 swersomc mkt unsterl caused bv
freesaeamdnturbances 1 BTN-%EIX95222650790 1 p329 A9579246
Unsteady Mt on a swept blade trp [ BTN-94-EIX95011441154 I p329 A9180030
Flow due to an 0saHaltng sphere and an erqneJsron fa unsteady drag on the sphere at finite Reynolds rlUr&er [BTN-94-ElX95011441142 I p347 A9EB1012
High trequency flow-structural mleracbon m dense Dllbsonrffuds [NASA-cR-46521 p330 N95-24217
Thennohydrodynamic analysis of cryogenic lquid tubulem flow flud film bearings. phase 2
p349 N9524461 [ W C R - 1 9 7 4 1 2 1 Recent mprovernenk to and vpLd.bon of the one
~ N A s A w a v e m t a ~ [NASA-Tu-106913] p332 N95-25962
A c a b n e d B e o m e t n c a p p D a c h f u s o h n n g m e Naner-stokes esuatDm on dynaMc gnds [NASA-TM-106919] p332 N9526075
o y ~ m c s t s l l a n m d f o r a d m c e d r d a c n n .pphcabon
p334 A95-79249 I BTN-95-El-793 1 A -1 STOL %search Aatran DRle(0Pment program
I NAL-TR-12231 p336 N95-25862
uppERsuRFACEBLomuo
V V A W DE#)5mo11
u s a s u r e m s m ~ ~ s t s n d s r d J f o r ~
p344 N95-26123 PVDTBC expewwe on GE arcraft engnes
p345 N9126126 Thermal conduclm(y of DTcQIil mernul bvnec
codneb p345 N95-26133
S u p e n o o * y l m h y p e M n c n b o g e n - j m [BTN-9KIx9501 t u 1 134) p340 MHg102o
LatmdevMbmDofsbatosphenclracegases 1"-95-1
Dercnbnen- p342 A9180409
a n d a p p k c a m n o f ~ ~ c o a b n g s
VAPORS
V " S
V E c r o R s ( y I ~ m c s )
VELuxrY-
p352 A9578013
Laserdencsformeonmga vessel's speed I H T N - m Z l p361 A9580633
V ~ a r a p c r r m a s m U m ~ e n 1 9 9 3 k a n observsbDmofco2. N20. and w (HTKB5-mSrll p351 AB178006
ewolmm3 ( H T N - 9 5 - M I p351 ABS-78008
[HTK95709U)1 p352 A9578013
Fault detecbon n rnmpaervx sysmms and a m y PDCagas I BTN-9SEIX95242679097 1 p359 A95-81253
neAIlKm EIIploRBDly flow vsrptmm mesllg.bon of
VERtluLmmmwnm
& l ~ o f ~ e x h u s ( p * n e s f m n . m d e n t s l
L a b t u d e v a n a ~ o f ~ ~ b s c a g a s e s
VERI URGE SCALE *ITEGRIl"
man-mounladqlhtsmpssenceofamlw IN=A--l p330 N95-24566
neAIlKmyAsulEywT A,parars - -==MSryr temfor
the smA-9 BLvk H.wk hebavm I m O - m m 7 2 1 p348 N95-24203
neAIlwn(OYUUTORS Apo~ t~bk tmxmswnv lb rabon anJyss ryrtem for
me s7oA-9 BL.dr Hwwk helrcoptar [DsTo.lRo072] p348 N95-24203
-TAPES
p363 N9524238
Ernpmcal correcttons 01 Me ngid rotor intefacbon potanbslofH2-CUntkamactweregton Dnnerteawes mtheFlR.brorpboospectra IHTKB541Q431 p361 AB581690
Vacoplatr nrpwe ol sbwhres for mtense local
m-at.loe [NASA&P-7109(01)]
VRUL- - Z 2 5 4 1 5 4 0 1 p346 A95.77921
VguucWQmoll V a u r ) ~ d B ( e c b M I t h r a s h d d S f o r s r a a n
(ADA2BBB181 p328 N95-25607
I n e O f ~ n m o I e ~
- VORTEX A- - me wake votiex sgnaure for an a*~e
INAsAcR197697] p333 -24391
A-17
VORTEX FLAPS SUBJECT INDEX
VORTEX FLAPS Low speed aerodynamic characteristics of delta wings
with vortex flaps 60 deg and 70 deg delta wings I NAL-TR-12451 p 331 N95-25105
High frequency flow-structural interaction in dense subsonc fluids 1 NASA-CR-46521 p 330 N95-24217
VORTEX SHEETS
VORTEX SHEDDING
Effect of density gradients in confined supersonic shear layers Part 2 3-D modes 1 NASA-CR-1980301 p 349 N95-24413
VORTICES On the role of the wter region in the
turbulent-boundary-layer bursting process [BTN-94-EIX9501144IO78] p 348 A9541056
Threedimenwonal interaction 01 wakelboundary-layer and vortexlboundary-layer data report I CUEDIA-AEREOITR-23 1 p 329 N95-24210
The almosphenc eflects of stratospheric aircraft A fourth program report I NASA-RP-1359 1 p 357 N95-24274
Charactenzing the wake vortex signature for an actwe line of sight remote senaor I NASA-CR-1976971 p 333 N95-24391
WAKES Flow structure in the lee of an inclined 6 1 prolate
spheroid lBTN-94-EIX95011441127] p 348 A9541027
WALL FLOW Supersonic quiet-tunnel development lor
laminar-lurbulent transition research I NASA-CR.1980401 p 340 N95-24302
Effects of cavity dimensions. boundary layer. and temperature on cavrty nose mth emphasis on benchmark data to validate computational aeroacwstic codes I NASA-CR-4653 I p 361 N95-24879
WALL PRESSURE Experimental study of flow separatmn on an oscillating
flap at Mach 2 4 I BTN-95-EIX95222650792 ] p 329 A95-79248
WARNING SYSTEMS Real-time decision aiding AircraH guidance for mnd
shear avadance I BTN-95-EIX95202637575 ] p 332 A95-78583
Analysis of warping effects on the staec and dynamic response 01 a seat-lype structure I NIAR-94-121 p 348 N95-24211
Analysis of the physical state of one Arctic polar stralospheric c lwd based on observabons I HTN-95-70917 1 p 351 A95-77982
Repon to Congressional Committees Tacecal Aircran Concurrency in development and production of F-22 aircraft should be reduced I GAOINSIAD-95-59] p 336 N95-26338
Impact fnctmn and wear testing of mlcrosemples of
I
WALL JETS
I
WARPAGE
WATER
WEAPONS DEVELOPMENT
WEAR RESISTANCE
polycrystalline silicon p 361 A9579988 WEIGHTING FUNCTIONS
AerodyMmiC parameter Bstimtmn na Fwner modulating lunction techniques I NASA-CR-4654 I p 335 N95-24630
JPRS report Science and technology Central Eurasls I JPRS-UST-95-011 I p 335 N95-24541
Real-time decision alding AircraH guldance lor wind shear avodance I BTN-95-EIX95202637575 I p332 A95-78583
WIND PRESSURE
WELDED STRUCTURES
WIND EFFECTS
Load allmation maneuvers for a launch vehicle p342 A9541360
Cornpanson of mnd profiler and urnaft mnd measurements at Chebogue Pant. Nova S c o ~ I HTN-95-41833 I p353 A9550559
Real-time denslon d n g AnmH grwdance lor wmd shear avordance I BTN-95-EIX952026375751 p332 A9578583
Development of a model protection and dynamic response monitoring system lor the national lranwnlc
I NASACR-19504lj p340 N95-24388
WIND PROFILES
WIND SHEAR
WIND TUNNEL MODELS
facility
Angular displacement measunng devlce [NASA-CASE-ARC-1 1937-1 1 p 362 N95-26015
A-18
WIND TUNNEL NOZZLES SUperSOniC quiet-tunnel development for
laminar-turbulent transitmn research I NASA-CR-198040l p 340 N95-24302
WIND TUNNEL TESTS Hypersonic model testing in a shock tunnel
I BTN-95-EIX95222650789 1 p 329 A95-79245 Similanty rule for let-temperature effects on transonic
base pressure I BTN-95-EIX95222650791J p 329 A95-79247
Threedimensmnal interaction of wakelboundary-layer and vwtexlboundary-layer data report I CUEDIA-AEREOITR-231 p 329 N95-24210
Supersonic quat-tunnel development for hniWr-tUrbUlent transiton research I NASA-CR-1980401 p 340 N95-24302
Study of compresslble flow through a rectangular-to-semrnnnular tranwtion duct 1 NASA-CR-46601 p 338 N95-24392
DSMC calculations for 70-deg blunted cone at 3 2 kmls in nitrogen I NASA-TM-109181 I p 348 N95-24396
Performance of an aerodynamic yaw controller mounted on the space shuttle m e r body flap at Mach IO [NASA-TM-1091791 p 330 N95-24397
Expenmental study of the eflects of Reynolds number on hgh angle of attack aerodynamic charactenstics of lorebodies dunng rotary mobon [NASA-CR-1950331 p 330 N95-24443
Explorat~y flow visualization investigation of mast-mounted sghts in presence of a rotor [ NASA-TM-4634 1 p330 N95-24566
Uwng dgital filtenng techniques as an aid in mnd tuftnne data analysls lDE94-0lI8621 p 357 N95-24853
Effects of cavity dimensions. boundary layer. and temperature on can*, mse mth emphaws on benchmark data to valldate computational aeroacousbc codes
p361 N95-24879 1 NASA-CR-4653 1 NumencaI and expenmental study of drag charactenstics
of two-dimenwmal HLFC airfals in hgh subsonc. hgh Reynolds number llov I NAL-TR-1244TI p 331 N95-24998
Low speed aerodynamic charactenstlcs of delta mngs mth vortex flaps 60 deg and 70 deg delta mngs [ NAL-TR-12451 p 331 N95-25105
Thrust measurements of a complete axisymmetric scramjet in an impulse fanlity p 339 N95-25395
Scramjet lhrust measurement in a shock tunnel p339 N95-25396
Balances for the measurement of multlple components
p350 N95-25400 Aerodynam~c characlensbcs of the orb~tal reentry vehicle
expenmental probe hns m a supersonic flow I NAL-TR-12321 p342 N95-25664
Measurements of longitudinal static aerodynamlc coeflicients by the cable mount system 1 NAL-TR-12261 p 331 N95-25761
Fundamental mnd tunnel expenments on law-speed flutter of a bpfin confguratlon mng
of force in tlowf of a mtll- dura-
1 NAL-TR-12281 p 332 N95-25762 Heat transfer maasuremenb in small scale mnd
tunnels IAO-A28@&9] p341 N95-26053
Usrng dlgM hltenng technques as an ad in mnd turb~ne WIND TURBINES
dam [DE9401 I8621 P 357 N95-24853
NREL awfal lamilas for HAWS I DE95-000267 1 P 357 N95-24882
Wind techno&gy development Large and small luknes I DE95-000286 ] P358 N95-26090
Cornpanson of mnd profiler and aircran mnd measurements at chebogue Pant. Nova Scoha lHTN-95-41833] P 353 A9580559
WIND VELOCITY MEASUREMENT
WINDPOWER UTlLl2ATlON Wind techndogl dewlopment Large .nd ~ I I
lurbmas lMgSM)02861 P358 N95-28090
WlNQ 0scl~TK)Ws b a d adaptwe and neural cmtml Of mng-rock mohon
of &ndu denr mngs 1BTN-95-€lx952426707~ 1 P327 AB581099
Fundamental wind tunnel expenMIS on low-speed flutter of a bphn confguratm mWl I NAL-TR-12281 P 332 N95-25762
AerOSeNOelaStiC aspects of wlnglcontrol suriace planform shape optimizahon I BTN-95-EIX95222650795 1 P 340 A95-79251
WING PLANFORMS
WING PROFILES A theoretical and experimental investigation of the flow
over supersonic leading edge winglbody configurations I DRA-TM-AERO-PROP-41 I p 331 N95-25649
WING SLOTS Impingement cooling of an isothermally heated Surface
p 347 A95-78494
Fundamental wind tunnel experiments on lowweed flutter of a tip-fin configuration wing I NAL-TR-12281 p 332 N95-25762
Fundamental wind tunnel expenments on low-speed
p 332 N95-25762
AeroseNoelastic aspects of winglcontrol surface
p 340 A95-79251
mth a confined slot let IBTN-94-ElX94421348950 I
WING TIPS
WINGLETS
flutter of a tip-fin configuration wing [NAL-TR-1228 I
WINOS
planform shape optimization I BTN-95-EIX95222650795 I
Geometnc analysis of wing sections [ NASA-TM-110346 I p 335 N95-24629
Fundamental wind tunnel expenments on low-speed flutter of a bpfin configuration wing
p 332 N95-25762 [ NAL-TR-12281
X X RAY INSPECTION
Emerging tWndeStruCtNe inspection p for 328 aging N95-25401 aircraft [ PB95-143053 I
z ZIRCONIUM OXIDES
Thermal conductmty of zirconia thermal barrier p 345 N95-26133 coabngs
PERSONAL AUTHOR INDEX AERONAUTICAL ENGINEERING / A Continuing Bibliography (Supplement 320) August 1995
Typical Personal Author Index Listing
A n ~ o f n s b u n e n t a b o n t a b a p o s p h e n c RECKER,K.H. of dmemv( M i d e Ancraft results for N n m r s o n d e a n d ~ ~ f r o m a e r o
report, translation. NASA conttador +). me page and accession numbers are located bemath and to me right OI the tine. Under any one author's name the accession numbers are arranged in sequence.
A
5 1
BRADY, RAYMOND ti., 111 PERSONAL AUTHOR INDEX
ERADY. RAYMOND ti.. 111 Identification of aviation weather hazards based on the
integration of radar and lightning data I HTN-95-51323 I p 356 A95-80908
Impact of present aircraft emissions of nitrogen oxides on tropospheric ozone and cltmate forcing I HTN-95-21364) p 353 A95-78679
Perspectwe on thermal barner coatings for industrial gas turbine applications p 345 N95-26128
Estimate of probability of crack detection from service difflculty report data lPB95-1493811 p 328 N95-24295
ERASSEUR. G. P.
ERENTNALL W. D.
BREWER, J. C.
ERINDLEY. W. J. Thermal Banter Coating Workshop
INASA-CP-10170 I p 344 N95-26119
Application of fuzzy logic to optimize placement of an
p 341 A9540390
EUKLEY. JERRY
acquisition. tracking. and pointing expenment
C CARTER, GARY M.
Identification 01 aviation weather hazards based on the integration 01 radar and lightning data I HTN-95-51323 I p356 A9540908
On-line learning nonlinear direct neurocontrollers for restructurable control systems I BTN-95-EIX95242670768 p 359 A9541079
CASDORPH. VAN
CHAKRAEARTI, A. Dynamics of phase ordering of nematics in a pore
I DE95-607662 I p 362 N95-25978 CHAN. K. R.
Fine-scale poleward transport of tropical air during AASE 2 I HTN-95-709491 p 352 A95-78014
Real-time testing and demonstration of the US Army Corps 01 Engineers Real-Time On-The-Fly p l i on ing system I AD-AZ88624 1 p334 N95-25609
Chemical chhange in the arctic vortex dunng AASE 2 I HTN-95-70947 I p 352 A95-78012
Proceedings of the 2d USAF Aging Aircraft Conlerence IAD-A288217] p 336 N95-25578
CHANCE. JOHN E.
CHANCE, KELLY V.
CHANG. C. I
CHANG. I.CHUNG Geometric analysis 01 wing secttons
I NASA-TM-1103461 p 335 N95-24629 CHAPMAN. GARY T.
Expenmental study of flow separatm on an oscillaling flap at Mach 2 4 I BTN-95-EIX95222650792 I p 329 A95-79248
Multilevel decomposition procedure for ettlcient dmgn optimization of helicopter rotor blades I BTN.95.EIX95222650784 I p 334 A95-79240
Advanced subsonic airplane design and economic
CHALTTOPADHVAY. ADIT1
CHAU. JOHNNY
Studies I NASA-CR-195443) P 338 N95-24304
CHAWLA, KALPANA Aerodynamic optimaallon studms on advanced
architecture computers I NASA-CR-1980451 p 330 N95-24379
Ideal proporbonal nawgatlon p 342 A9541374
Impingement cooling of an isothermally heated surface with a conlined slot jet 1 BTN-94-EIX944213489501 p 347 A95-78494
Thermal fracture mechanisms in ceramic thermal barrier
CHERN. JENGSHING
cnou. Y. J.
cnouus, E. D.
coatings P346 N95-26138 CHRISTENSEN. DIANE a.
Development 01 an ot-m program to encoorage shwlder harness use and aircraft retroflt in general aviation urcraft. phases 1 and 2 [DOT/FM/AM-95/2] p 333 N95-24384
High-performance, robust. bank-to-turn missile autopllot
I BTN-95-EIX952426707511 p 336 A95-81096
I BTN-95-EIX95242670754 1 p 342 A9541093
CLOUTIER. JAMES R.
*sign
COCHRAN. J. E., JR. Dynamics and control of a tethered lllght vehicle
COFFEY. M. T. COmPariSOn of column abundances from three infrared
Spectrometers during AASE 2 I HTN-95-70946 J p 352 A95-7801 1
The distribution of hydrogen, nitrogen. and chlonne radicals in the lower stratosphere lmplicatoons for changes in 0 3 due to emisvon of NO(y) from supersonic aircraft (HTN-95.709351 p 351 A9578000
Meridional distributions of NO(X) NO(Y). and other Speces in the lower statosphere and upper troposphere dunng AASE 2 1 HTN-95-70944 ] p 352 A9578009
COLLINS, J. E., JR. An analyws of aircratt exhaust plumes lorm accidental
encounters I HTN-95-70943 ] p 351 A95-78008
Impact of near-coincident faults on digital flight control
COHEN. R. C.
COLLINS, J. E.
CONSTANTINESCU. CRISTIAN
systems I BTN-95-EIX95242670759 1 p 359 A9581088
COON. MICHAEL D.
flap at Mach 2 4
COOPER. DAVID J.
Experimental study of flow separation on an oscillabng
I BTN-95-EIX95222650792 I p 329 A95-79248
An intercompanson of instrumentalion for tropospheric measurements of dimethyl sulflde Aircraft results for concentratwns at the parts-per-trillion level I HTN-95-91857 I p355 A95-80845
Appllcabon of direct transcnpbon to commercial aircraft tralectory opbmmtm I BTN-95-EIX95242670766 p 359 A9181081
CRAWLEY. EDWARD F. Fundamental mechanisms of aerodastic control with
CRAMER. EVlN J.
control wrface and strain actualton I BTN-95-EIX95242670746 I p 327 A95-81101
CULP. ROEERT 0. Guidance and Control. 1993, Annual Rocky Mountain
Guldance and Control Conference. 16th. Keystone. CO. Feb 6-10. 1993 I ISBN-087703-365-X ] p 341 A9540389
D DAHLKE, LUTZ
Emerging nondestructive inspecbon for aging aircraft lPB95-1430531 p328 N9525401
Balances for the measurement of mulbple components
p350 N95-25400
DANIEL W. J.
Of force in flom of a millisecond duralwn
DAPKUNAS. S. J. Thermal Earner Coabng workshop
1 NASA-CP-IO1701 p 344 N95-26119 Meaaurement methods and standards lor proceswng
p344 N95-26123 and wl lcalwn of thermal barner coabngs
DAUBE, BRUCE C.. JR. Ver(lc~1 transpod rates in the statosphwe in 1993 from
observabons of CO2. N20. and CH4 I HTN-95-709411 p 351 A95-78006
DAVIDSOM, J. A. SOFIA Stratosphenc Observatory for Infrared
Astronomy p 363 A9541583
An intercomparison of aircraft instrurnentatlon for troposphsnc measurements of sulhrr dloxlde 1 HTN-95918551 p354 A9540843
An mtercomparison of aircraft instrumentation for tropospheric measurements Of Carbonyl sulhde. hydrogen sulllde. and carbon duwlflde I HTN-9591856 I P355 A9540844
An mterwmpanson of instrumen(.bon for troposphenc measurements 01 dimethyl sulfide krcraft results for wncentrabons at the parts-per-tnlllon level I HTN-95918571 P355 A9580845
Thermal bamer coabng 0- on the gas turtnne wine P u 5 N9526125
A new gwdance and fl@t control .VStm for the DELTA 2hunchvahcla P342 A9580427
OIIOCU Of Reynolds number on hbgh angle of aMck amodynunc Charactensbcs of loreboaes dunng rotary mom INASA-CR-1950331 P 330 N95-24443
Thermal conductMty Of b r ~ Mermal bamer
DAVIS, DWOLAS D.
DEMASI-MARCIN. J.
DHUWETTLR. n.
DICKES, E. E-1 study 01
DINWIDDIE. R. E.
coabngs P 345 N95-26133
DOGRA, V. K.
in nitrogen [NASA-TM-l091811
DOUGLASS, ANNE R.
DSMC calculations for 70-deg blunted cone St 3 2 km/s
p 348 N95-24396
Tracer transport for realistic aircraft emission Scenarm calculated using a three-dimensional model [HTN-95-41799) p 353 A9540525
Visual contrast detection thresholds for aircraft
p 328 N95-25607
Analysis of the physical state of one Arctic polar stratospheric cloud based on obSeNal10nS I HTN-95-70917 I p 351 A95-77982
Study of subsonic base cavity llowfmld structure using particle image velocimetry 1 BTN-95-EIX95222650781 I p 327 A95-79237
Vertical transport rates in the statosphere in 1993 from observations of CO2. N20. and CH4 1 HTN-95-70941 I p351 A95.78006
Analysis of the physical state of one Arctic polar stratospheric cloud based on observations I HTN-95-70917 I p 351 A95-77982
DOYAL, JEFFREY A.
wntrails IAD-A2886181
DRDLA. K.
DUlTON, CRAIG J.
DULTTON. GEOFFREY S.
DYE, J. E.
E EKSTROEM. C.
helmpter 1 PB95-1649271
ELKINS. J. W.
Interfacing a digital compass to a remote-controlled
p 340 N95-24260
Fine-scale. poleward transport of tropical air during M S E 2 I HTN-95-70949 I p 352 A95-78014
Verllcal transport rates in the statosphere in 1993 from ELKINS. JAMES W.
ObseNatiOnS Of CO2. N20. and CH4 IHTN-95-709411 p 351 A95-78006
ELMER, KEVIN R. NOW impact of advanced high lift systems
I NASA-CR-t95028 I p 362 N95-26160
SOFIA Stratosphenc Observatory for Infrared Astronomy p 363 A95-81583
ESHOW. MICHELLE M. Identificatlon and wmulation evaluation of a combat
helicopter in hover I BTN-95-EIX95242670749 I p335 A9581098
EVERS. JOHNNY ti. High-performance. robust. bank-to-turn missile autopilot
I BTN-95-EIX95242670751 J p 336 A9541096
ERICKSON, E. F.
design
F FABIAN. P.
Cynamics of aircraft exhaust plumes in the let-regime IHTN-95-512751 p 355 A95-80860
The dtstnbutlon of hydrogen nitrogen. and chlorine radlcals in the lower stratosphere lmplicatlons for changes in 0 3 due to emiswon of NO(y) from supersonic aircraft 1 HTN-95-70935 I p351 A9170000
Ver(lul transporl rates in the statosphere in 1993 from
FAHEY. 0. W.
FAHEY. DAVID W.
observahons of CO2. N20. and CH4 I HTN-95-709411 p 351 A95-78006
Thermal bamr coatings applicatlon in dmsel engines FAIRBANKS, J. W.
p345 N95-26124
Appllubon of mural networks to unsteady aercdynamic p 360 N95-25264
An intercomparison of aircraft instrumentation lor troposphm nhmsurements 01 sulfur dtoxde [ HTN-85-918551 p354 A9540843
An m t v of mabumentabon for tropospheric nuuunnm(l o( hwlhyl Mode Aircraft results for
P355 A9540845
Dyr~rmc beh.w of a magnebc beanng supported jet engine rotor wth auxilmry beanngs [NASACR-1978601 P 338 N95-24213
A porurMe mrnmiwon nbratlon analyvs system for
FALLER, WILLIAM E.
COn(r0l FEREK. RONALD J.
c o n m n t m ~ at (h. p.l&per-uHkon level [ HTN-95-91857 1
FLOWERS, 0.7.
FORRESTER. 0.0.
the S-70A-9 Black Hawk heltcOpter [ DSTO-TR-0072 1 P a 8 N95-24203
PERSONAL AUTHOR INDEX KACHURIN, V. K.
G
I BTK95-EIX952426707471 p359 A9581100 O I R Y . B. L
GRANlER c. Impact 01 pesent anmaft emnans of nm~gen oxw3es
on tropospheric ozcne and chlale forcsq IHTN-91213641 p353 A9578679
An intercompanson of aircrafl instrumentabon for GREGORY. GERALD L
lroporpherr -1s Of YlMn bonds [trrN-95-91855] p354 A9580843
An lntercompanson of aircraft instrumentation for tr- meaouements Of carbonyl WKde. hydrcgm wlfde,andcsrbondnrulhde [nTN-sis less] p355 A9580844
An tmemmmm ol lmtnrmentabon for Boposphenc measurements of dlmemyl Sun& Arcran readts for cimcsma- at mePSrtS-per-rmk0n level ("-95-911)571 p355 A95-80&(5
IBTN-94-EIXBSO114411341 p340 A9581020
Gl?1IRm(, W A W C. SuwmoWmhypeMRcnbopenmd-
oi#rmc.n
GFIa&rnLUUlL
nyperrarnmdeitesbngnashodrhmnel I BTN-95EIX9y22650789 1 p329 A9579245
The a t m 4 h n c aftecD of saatosphenc aircraft A
p 357 N95-24274
Dedammi oi an n(aVenb0n p g l a m 10 enmrage thoulder~usemduCnnretrohtmgannlanatDn . I r a a P t m a S l s n d 2 [WTfFANAW95/2] p333 N95-24384
-pogmrspat 1 NASA-RP-13591
OWN, WALTER J.
H
HOUTYAN, E. Y. Ouanmatwe c o m p a m behreen mt-
measurements and E u h compltabons tor wperronc coneffows 1 BTN-95-EIXs52226507a21 p358 A9179238
HSU,LL Pffspeanre on thermal bamer Coaangs for adustnal gas
mapplra- p345 N9526128 HUANG. T. T.
sphemd
"G. Y. H.
Flow sbucture m me lee of an mciined 6 1 prolate
p348 A9581027 [BTK94-EIX95011441127]
l ~ c o o l I n g o l a n Qahemlally -led d a c e
[BTN-94-EIX944213489501 p347 A9570494 M a c o n f n e d d o t p
I
J
K
E 3
-
KAERCHER, B.
KAERCHER. B. Dynamics of aircraft exhaust plumes in the let-regime
I HTN-95-51275 J p 355 A95-80860 KANDA, HlROSHl
Numerical and expenmental study of drag characteristics of two-dimensional HLFC airfoils In high subsonic. high Reynolds number flow I NAL-TR-1244TI p 331 N95-24998
Effect of film coolinghegenerative cooling on scramlet
I NAL-TR-12421 p 339 N95-24990
KANDA. TAKESHI
engine performances
KARLSSON. ANDERS How to fly an aircraft mth control theory and splines
p 360 N95-25805
Fault detection in multiprocessor systems and array KARPOVSKV. MARK G.
Drocessors
PERSONAL AUTHOR INDEX
I BTN-95-EIX95242679097 ] p 359 A9541253 KAR. J.
Flow structure in the lee of an inclined 6 1 prolate spherad IBTN-94-EIX95011441127) p 348 A95-81027
KAWAHARA. HIROVASU Preliminary experiments of an optical fiber display
[NAL-TR-1257 J p 362 N95-25004 Flight reference display for powered-lift STOL aircraft
INAL.TR-l251] p 337 N95-25005
The distribution of hydrogen, nitrogen. and chlonne radicals in the laver stratosphere Implications for changes in 03 due to emission of NOIy) from supersonic aircraft
KEIM. E. R.
I HTN-95-70935 I p351 A95-78000 KELLEV. HENRV L
Exploratory flow nsualization investlgatm of mast-mounted wghts in presence of a rotor I NASA-TM-4634 ] p 330 N95-24566
Dynamic behavior of a magnetic beanng supported pt engine rotor mth auxiliary bearings I NASA-CR-197860 ] p 338 N95-24213
Effect of denuty gradients in confined supersonic shear
KELLY. JOHN C.. JR.
KELLY. R. E.
layers pan 1 I NASA-CR.1980291 p 348 N95-24412
Effect of density gradients in confined supersonic shear layers Pan 2 3-0 modes I NASA-CR-1980301 p 349 N95-24413
KESSELI. J. 8. Small gas turbine component evaluation study
I PB95- 147542 I p 338 N95-24293
Modal characteristics of rotors uung a conical shaft finite element I BTN-94-EIX94401359745) p 346 A9577379
Development of a model protection and dynamic response monitoring system for the nabonal transonic facility I NASA-CR-195041 J p 340 N95-24388
Nitrous oxide and methane emissons from aero engines 1 HTN-95.21363 I p 353 A95-78678
Effects on stratospheric ozone from htgh-spwd civil transpon Sensitivity lo stratosphenc aerosol loading IHTN-95-918421 p354 A9540830
Thermal fracture mechanisms in ceramic thermal bamer coatings p 346 N95-26138
Viscoplastic response of structures for intense local
I HTN-95.41540 I p 346 A95-77921
Describing an anitude p 342 A95-80409
Partial camera automabon in a amulated Unmanned kr Vehlcle I ADA2887861 p337 N95-26190
Nitrous ox& and methane e m i s m s hom aero engines HTN-95-21363) p353 A95-78678
KHULIEF, V. A.
KILGORE, W. ALLEN
KLEFFMANN. J.
KO, MALCOLM K. W.
KOKINI. K.
KOLENSKI. J. 0.
heabng
KOLVE. 0. 1.
KORTELING. J. E.
KURTENBACH. R.
L LAIT. L R.
Fine-scale. poleward transport 01 tropical air during AASE 2 I HTN-95-709491 p 352 A95-78014
8-4
LAMB, MILTON Internal performance characteristics of thrust-vectored
axisymmetric ejector nozzles I NASA-TM-46101 p 331 N95-25338
Quantitative Comparison between interferometric measurements and Euler computations for supersonic cone flows I BTN-95-EIX95222650782 ] p 358 A95-79238
Real-time testing and demonstration of the US Army corps of Engineers' Real-Time On-The-Fly positioning system 1 ADA288624 I p334 N95.2W9
A crew-centered flight deck design philosophy for
LANEN. T. A. W. M.
LAPUCHA, DARIUSZ
LATORELLA. KARA A.
Hlgh-Speed C ~ i l Transport (HSCT) aircraft INASA-TM-109171] p 335 N95-24582
LAUBERTS, A. Aspect estimation of an aircraff uwng library model
silhouenes I PB95-141834 ] p 360 N95-25894
Fundamental mechanisms of aeroelastic control vlth control surface and strain actuation 1 BTN-95-EIX95242670746 ] p 327 A95-81101
LIURUS. KENNETH 8.
LEBOZEC. A. Hypersonu model testing in a shock tunnel
I BTN-95-EIX95222650789 1 p 329 A95-79245
Impact. fnction. and wear testing of microsamples of polycrystalline wlicon p 361 A95-79988
LEE, ABRAHAM P.
LEE, SOOOAB Dynamic stell control for advanced rotorcraft
appllcatlon 1 BTN-95-EIX95222650793 1 p 334 A95-79249
LEE. w. v. Thermal Barner Coating Workshop
Thermal barner coatinas issues in advanced land-based [ NASA-CP-101701 p 344 N95-26119
gas tIiTblne.5 p 344 N95-26122 LEONMS. CORNELIUS
Assessment of awnlcs technology in European aerospace organuations [NASA-CR-189201] p 337 N95-24624
LI. WEI-LIN AerOSeNOelaStiC aspects of winglcontrol surface
planform shwe ooUmuatlon I BTN-95-EIX95222650795 ] p340 A9579251
LIEBECK. ROBERT H. Advanced subsonic airplane deagn and economlc
studms INASA-CR-195443I p 338 N95-24304
UM, MARTIN 0. Impact. hctlon. and wear tesbng of Maosampies of
polpyslalhne s lm p361 A95-79988
Fundamental mechanisms of aeroelastc control mth control surface and strain actuation I BTN-95-EIX95242670746 I p 327 A9541101
H~gh-perfonnance, robust bank-to-turn rmutle autopilot
UN. CHARRISSA V.
UN, CHINGFANG
deslen I BTN-95-EIX95242670751] P336 A95-81096
LISCINSKV. 0. S. Crossflow mixing of noncircular lets
f NASA-TM-1068651 P 338 N95-24390 UU. BAW-LIN
High frequency flow-structural interacton in dense wbsorwc nuds lNASACR-46521 P 330 N95-24217
An analyas of aircraft exhaust Plumes form accidental B(uxHlnters I HTN-95-70943 1 P 351 A95-78008
A~OSeNOeIaStiC aspects of winglcontrol surface planform shape optimization IBTN-95-EIX95222650795 I P 340 A9579251
Fine-scale. polaward transport Of tropcal air dunng AASE 2 I HTN-95.709491 P 352 A95-78014
V-1 transpori rates in Me SUtOWhOre in 1983 from obwrvebma of CO2. N20. and cH4 [HTN-95709411 Pa51 A9578006
LOOSE, R. R. Wmd technology dev-t: LUQO and small
turbtneS I DE95-000286 1 P358 N95-26090
Potential effects on ozone of future supersonic aircraftl2D simulabon I HTN-95-512821 P356 A9580867
LIU, s c.
UVNE. ELI
LOEWENSTEIN. M.
LOEWENSTEIN, MAX
LOUISNARD, N.
LUTTGES, MARVIN W. Application of neural networks to unsteady aerodynamic
control p 360 N95-25264 LVON, ROGER
Advanced subsonic airplane design and eCOnOmlC Studies I NASA-CR-195443 I p 338 N95-24304
LVON. 1. F. Chemral compowtion and photochemical reactivity of
p 356 A95-80862 exhaust from aircraft turbine engines 1 HTN-95-51277 I
M MACPHERSON. J. IAN
Comparison of mnd profiler and aircraft wnd measurements at Chebogue Point. Nova Scotla [HTN-95-41833 I p 353 A9540559
MANKIN. W. 0. Cornpanson 01 column abundances from three infrared
spectrometers dunng AASE 2 I HTN-95-70946 I p 352 A95-78011
MARIOCCHI. A. PVD TBC experience on GE aircraft engines
p 345 N95-26126
Assessment of avionics technology in European aerospace organizations [NASA-CR-189201 I p 337 N95-24624
Effect 01 film cooling/regenerative cooling on scramlet engine performances I NAL-TR-12421 p 339 N95-24990
Predlcton of supersonic inlet unstan caused by freestream disturbances p 329 A95-79246 [ BTN-95-EIX95222650790 1
Assessment of avionics technology in European aerospace organizations [NASA-CR-189201 I p 337 N95-24624
YCALISTER. KENNTH W. Dynamic stall control for advanced rotorcraft
p 334 A95-79249
Multilevel decomposition procedure for elficmnt deugn optimuatlon of helicopter rotor blades I BTN-95-EIX95222650784 I p 334 A95-79240
Vemcal transport rates in the slatosphere in 1993 from 0bservaW.m~ of CO2. N20. and CH4 [HTN-95-70941 I p351 A95-78006
Aerodynamics model for a generic ASTOVL lift-fan
p 332 N95-26302
Shock tunnel studms of snampt phenomena 1993 [NASA-CR-195038 1 p 350 N95-25394
Thrust measurements of a complete axisymmetric scrampt in an impulse facility p 339 N95-25395
YARTINEC. 0. A.
MASUVA. QORO
MAVER, DAVID W.
MAVTON, MONICA
a p p l lca t i o n I BTN-9SEIX95222650793 I
YCCARTnV. THOMAS R.
YCELROV, MICHAEL 8.
YCNEIL, WALTER E.
aircraft [NASA-TM-110347]
NEE. 0.
ME€. 0. J. Scrampt thrust measurement in a shock tunnel
p 339 N95-25396 Balances for the measurement of mulbple components
p350 N95-25400
Impact of present aircraft emissions of nitrogen oxides on tropoaphenc ozone and climate forcing [HTN-95-21364] p 353 A9578679
Thewetlccll and expenmental studles of frening-initiated fattgue falure of aeroengme compressor discs 1 BTN-94-EIX94421372285 1 p 343 A9578467
Flow due to an oscillating sphere and an expression for unsteady drag on the 6phere at finite Reynolds number [BTN-S4-ElX95011441142] p347 A95-81012
Effects of u v i t y dimensions. boundary layer. and
of force in f lom of a millisecond duratron
MEGIE. G.
MEQUID. S A.
MEI, RENWEI
MENDOZI. J.
tempentun On UVdY n0ma rnth Mph.uS on benchmark
p 361 N95-24879 1 NASACR-4653 1 dola to validate C O ~ P U ~ ~ ~ I O M I aeroacoustlc codes
MEfZ, WERNER North Atlantic air trafhc Whin the lower stratosphere
Cruising hmeS and corresponding emissons [HTN-95-91841 I P 354 A95-80829
Thermal bamer COabngS for aircraft engines History and direclmns P 344 N95-26121
MILLER. R. A.
PERSONAL AUTHOR INDEX RAO. M.
YIU-ER. R. F. Revdoat Stress Measurements wth Laser Speckle
Carelallon I n t e r f e r w and Local Hedl Treatmg IDE95-O60082] p349 N95-24598
Modal charactemcs of rotm u~lg a -1 shaft fimie element I BTN-94-ElX944013597451 p346 A95-77379
YOHIUDMW. Y. A
UOLEZl, MICHAEL J. study Of wbsorvc base caw Ro*npld ttrue(ue rrpng
pa*lmage~Dcrmeby I BTN-95-EIX9522265078t ] p327 A95-79237
lhnmd Swas Cosst Guard Project summary and repor(
YO(rtOOYERY. WIAD Parts rrarhng anemaenes
I PB95-166146j p343 N95-z6004
-1 caductmly of - lhernml banel p345 -26133
ldentlfrabonofanatm Weatbr ~ b a s e d o n u l e
ImN-9!5-51323] p356 A9180908
yo0Rsc.s
wx#+ PATRNX 0.
mtegabon 01 radar and Ightning data
YoRIGhcuuWo Fault del- m nudtpr- syswms and m y
PocessaJ
MORGAN. R. G I BTK95-EIX95242679097] p359 A9541253
Shed tunnel slurAes 01 scrapt @~10mna1993 I NASAEA-1950381 p350 N9525394
TheSwembdal Eapamon Tube concept erpemnem and analms p341 N95-25399
DSMC calculators lor 70- blunted c ~ n e ai 3 2 kmls
1 NASA-TM-1091811 p348 -24396
Masurements 01 longnudmal statr .orodyMmc
YOSS. J. N.
mnmDgen
NUROTA. KATsIRcI(I
coemoentrbY(hecsblemountygem 1NAL-TR-1226] p331 N95-25761
~ersDectneonlhermalbamercoanrgrforndab91gw turtnne appbeaam p345 NBs-26128
On me role 01 me arter regon n the
I BTN-94-ElX95011441078] p348 A95.81056
NUTASIN. Z 2
WVOSE, Rov v.
turbulent-boundary-layer bus- process
N NAGARAJ. 8. A
Thermal conartmty of ~lrrone mermal baer coatmgs p345 N95-26133
Flght relerence duplay tor porrered-(m SiOL Wnn NAKANURA. W R U
INAL-TR-1251] p337 N95-25005
resbuca.uabte contra systems
NAPOLITANO. YIRCEUO R On-line karnng ramhnear dnecl neuofonbo~ers for
I BTN-9SElX95242670768 ] p359 A9581079
&line learning nonlmear dum neuOcontrOllers for NAVLOR.
restructuaMe m +ems I BTN-95-EIX95242670768 1 p359 A9581079
The Supermtital Gwu-sm Tube c~lcept errperrnam and anaiyss P341 N95-2!sS
NEELV, A J.
NEPPACH, CIURLES On-line leawnng mmSar &ea naramboyrs fm
resbucbrablemntrolrystems I BTN-95ElX95242670768 1 P359 A9581079
N E W P. A Fiescale. poleward bamporl 01 tropical air dunng
AASE 2 I KTN-95-709491 P352 A9178014
NISSLEV. 0. Y. Thermal bamer coatmg Me modelmy n Wnn gas -- P346 N95-26140
I BTN-95-€IX95242670754] p342 A9581oe3
~-of (heorMi l l rea(yvehd. Y p o b e h n r n a s c p e r r m c R o w IN-TR-12321 p342 NBsZs(164
TubnaansneqpLamnsofmermogsphrghorph0r renpaaun- IDE-1 p358 N95-25110
NlPnenurandeqmnnmntalstudyofdragdwa&mbm of -1 HLFC a r t o & m h g h nb?urw. hgh
INAL-TA-12UTJ p331 N95-24998
No, 1. s Dynamrsand control of a tethered fhghtvehcle
NomJUNloN
WOEL m4DcE w.
)(o(uIoll aA!3AvOsHt
ReyrO(QRmberR0u
NOGUCHI. VOSHK) Study on tens& fa- t a n g memod 01 WudneCMwl
htm-rem matru cww&es [NAL-TR-1241 I p343 N95-24989
E 7 1 mvestrqabon 01 the flou around a arcular
~BTN-94-EIX95011441120] p347 A9580044
WOABERG. c. cyhnder InftIlefbX Of aspect ratlo
0 OFARREU J. Y
Hgh frssuRnl fkw-structural interaction in dense subsonK thuds INASACR-4652) p330 N95-24217
OKOSHI.-H. S h d Y o f c o m p e s o l b k - t h r a r I l h a
rectanpuler-tpramarmBsnslMndu* INASACR46601 p338 M95-24392
OUMR H. tlVperronrmodeltesmgnasl!ncklumel
(BTN-95-EIX952226507891 p329 -79245
Onentaton detemMbon d Dllfnn vpne nsual3D matchmgandradar C.rertudy2 [PB95-1657911 p350 N95-2j749
E M of film Eookng/regenwabve wobg on raunpl engncpatmMnesr I NAL-TR-1242J p339 N95-24990
Frpm twlewce d@ay tor p0rrered-M STOL -ft
0LSSOU.H.A
owo. N#EI
OWO, TAKATSUQU
[ NAL-TR-12511 p337 M95-25005
P
PEIRSON. A E. ~ e r o d y ~ m ~ parameter estimatm wa FWner
p335 N95-24630
R-I Stress Measurements with Laser Speckle Conelabon Interteromehy and L o c a l Heat Treabng IM-1 p349 N95-24598
Effect of dsrmty @adtents in confined superronw: shear
Mhdatnghrnctron- [NASAGR46541
PEWERSKV. Y. J.
PERODWAN, OSHW
lam. pan 1 P348 N95-24412 NASAGR-1980291 EfIectofdsrmtygmdierm m confined superronw: shear
(NASACR-lBB0301 p349 N95-24413
E ~ m u k s b W w n s p e c b o n f o r a g ~ y l a r m f f p32B N95-2yo1
layem Pan2 BDrodff
PtiwPs, GARV
1~851430531 pISIw0,lrllERTP.
Impact. hlcbon. and *%BT tesbrg of nvaosamples of polyaystrm- p361 A9579988
PtTARI. G ~ a n l t r a n s p o r t n p s c t RoIeofdIaIe n m
acd bhvapte. and *r) awosols sIudmd mth a V I - n - P W S f S I HTN-95-91843 I p354 A9540831
Impsc(OnmOneoftrgh-speedsbnoEphnw~ EffecOoftheRnssDnsceMno I ~ f ~ - % 5 1 2 8 3 1 p356 A9580868
AAsE2 [KfN-95-70949] p352 A95-78014
PLW. R. A Fine-scale. polward trampar of tnxncal M amp
#)DoLsI(E. J. R. Fneacale. pc&wud bsnsporl of tropical air dunng
M S E 2 l"-95-709491 p352 A9578014
V m d bvrspar Rtes n Um suitoBphere n 1993 from PoDoLSIQ, JIYESR.
observshaa ofco2. m, a n d w ["-9570@411 p351
#)EUOt,YOUfLR Rsmnry.nr)yasofu--wofNor(hmoa-n
datatrom the FHIE t h m I F 0 2 I NASACR-lBB0381 p357 N95-24219
for me DELTA p342 A9580427
shock tumel sbdres of r n m p t phenanena 1993
PORWW, R.
#wmR.L
A nw gudance and fllgm control 2llwnchvelrde
INASA-CF3-lBsR?8 1 p350 N95-25394
A crewcentered flight deck deslgn FhkWPhy for Hqhspeed cml Trwrpar ( H S O M [NASA-TM-109171] p335 N95-24582
PRICE, J. Y D y l c d a & b m s for 7odeg b*med cone ai 3 1 kmls
mr*trogsn [NASA-TM-l09181] p348 N95-24396
VEual consclst dete*m ttnsho& tu raan mnbuls [AD-A2l3I3618l p328 N95-25607
pr4 J. A. semtwly of superrom arcran ~l~ slu&s to
mpho(o)yns* [HTN-%11475] p353 A9579453
PREss,HIYE!sY
PURVIS, BRIDLET 0.
R
E 5
RASMUSSEN, ROBERT D. PERSONAL AUTHOR INDEX
RASMUSSEN. ROBERT 0. ROSENBERGER, TODD E. SCULLV. JOHN R. The Cassini spacecraft Object oriented flight control Workshop report Measurement techniques in highly NASA-UVA light aerospace alloy and structures
RAVISHANKARA, A. R. lAD-A288395] p 350 N95-25606 I NASA-CR-t98041! p 343 N95-24220 soware P 359 A95-80405 translent. spectrally rich combustion environments technology program (LAZST)
fourth program report
RAWDON, BLAINE K.
The atmospheric eftects 01 stratospheric aircraft A ROWLAND, F. S.
dunng U S E 2
SEEGMILLER, n. LEE B. Mendional distributions of NO(X). NO(Y). and other Angular displacement measuring device
[NASA-RP-13591 p 357 ~95.24274 species in the lower statosphere and upper troposphere [NASA-CASE-ARC-~ 1937.1 1 p 362 N95-26015
p 352 A95-78009 SEKINEq 'lDE0 Aerodynamic charactenstics of the Orbital reentry vehicle expenmental probe 'Ins In a supersonic p 342 flow N95-25664 I NAL-TR-12321
Advanced subsonic airplane deslgn and economic
P 338 N95-24304
A portable transmission vibration analysis system for
IHTN-95-709441 studles ROZINER. TATVANA 0. I NASA-CR-1954431 Fault detecbon in multiprocessor systems and array
REBBECHI, 8. processors p 359 A95-81253 SEYWALD. HANS
Load alleviation maneuvers lor a launch vehicle I BTN~95-E1X952426790971
p 342 A95-81360 the S-70A-9 Black Hawk helicopter I DSTO-TR-0072 I n 7dR NQL9Ama c - -
REICHERT. BRUCE A. Study 01 compressible flow through a
rectangular-to-semiannular transition duct I NASA-CR-4660 I p 338 N95-24392
Robust dynamic inversion lor control of highly manewerable aircraft I BTN-95-EIX95242670747 1 p 359 A95-81100
North Atlantic air traflic within the lower stratosphere Ouslng times and corresponding emissons lHTN-95-9t84t I p 354 A95-80829
Real-time testing and demonstration of the US Army Corps of Engineers Real-Time On-The-Fly positioning system I ADA288624 ] p334 N95-25609
Aerodynamic shape optimization ot wing and mng-body conliguratlons using control theory I NASA-CR-198024 I p 335 N95-25334
High-speed c ~ i l transport impact Role 01 sullate. nltnc BCld tnhydrate and ice aerosols studied wth a two-dimensional model including aerosol phyvcs
REINER. JACOB
REINHAROT, MANFRED E.
REMONDI. BENJAMIN W.
REUTHER, JAMES
RICCIARDULLI, L
I HTN 95-91843 I p354 A95-80831 RICE, EDWARD J.
Jet mixer noise suppressor ueng acoustic feedback INASA CASE LEW-15170-2I p 362 N95-26187
The etiect 01 altitude conditions on the particle emissions of a J85 GE-5L turbolet engine INASA TM-106669) p 339 N95-24561
RIDLEY, 8. A An analysls 01 aircraft exhaust plumes form accidental
encounters I HTN-95 70943 I p 351 A9578008
Meridional distributions 01 NO(X). NOIY). and other species in the lower statosphere and upper troposphere during AASE 2 I HTN 95 70944 I p352 A9578009
RICKEY. JUNE ELIZABETH
RIGGIN. R. M. Chemical composition and photochemical reactivity 01
exhaust from aircraft turbine engines I HTN-95 51277 I p356 A95-80862
RIMBEV. P. R Consistent approach to descnbing aircraft HlRF
protection I NASA-CR-195067 I p 334 N95-25341
RINOIE. KENlCHl Low speed aerodynamic charactenstics 01 delta mngs
with vortex llaps 60 deg and 70 deg delta mngs I NAL-TR-1245 I p 331 N95-25105
R121, V. High.speed cwil transpart impact Role 01 sullate. nmc
acid tnhydrate. and c e aerorols studled mth a two-dimensional model including aerosol phwcs I HTN-95-918431 p 354 A9580831
Emerging nondestructive inspecbon lor aging aircraft
Etiects on stratosphenc ozone from high-speed civil transport Sensitivity to stratosphenc aerosol loading I HTN-95-91842 p354 A9540830
The atmospheric eflects 01 stratosphenc airN(lft A fourth pmgram report 1 NASA-RP-13591 p 357 N95-24274
A crew-centered llight deck design philosophy lor Hgh-Speed CNII Transporl (HSCT) M N ~ H lNASA-TM-I09171] p335 N95-24582
Orientation determinabon 01 r rcnf t ustng wsuol 3D matdung and radar Case study 2 lPB95-1657911 p 350 N95-25749
Tracer transpoc! for realistic errcreti emssion scenams calculated ueng a three-dimensional model I HTN-95417991 p353 A9580525
ROACH. DENNIS
I peg5 143053 I p 328 N95-25401 RODRIGUEZ JOSE M.
ROQER$ WILLIAM n.
ROIVAINEN, P.
ROOD. RICHARD 8.
G
SACHSE. G. W. An analysis 01 aircraft exhaust plumes form accidental
encounters I HTN-95-70943 1 p 351 A9578008
Mendlonal distnbutlons of NO(X). NO(Y). and other S m s in the laver statosphere and upper troposphere dunng AASE 2 I HTN-95-70944 ] p 352 A9578009
SAITO. TOSHlHlTO Eflect of lilm cooling/regenerative cooling on xramlet
engine perlonnances I NAL-TR-1242 1 p 339 N95-24990
The distribution 01 hydrogen. nltrogen. and chlmne SALAWITCH, R. J.
radicals in the lower stratosphife lmplicatlons tor changes in 0 3 due to emisswn 01 NO(y) trom supersonic aircraft I HTN-95.709351 p 351 A9578000
An intercomparison 01 aircratt instrumentation lor tropospheric measurements 01 carbonyl sulfide. hydrogen sullde. and carbon disullide I HTN-95-91856 I p 355 A9540844
An intercompanson of instrumentatlon lor boposphenc measurements of dimethyl sullde Aircraft results lor concentratwns at the parts-per-tnlllon level IHTN-95-918571 P 355 A9580845
Thennohydrodynamic analysis 01 cryogenic hqusd
SALTUIAN. ERIC S.
SANANDRES. LUIS
turbulent llorv Hud hlm beanngs. phase 2 1 NASA-CR-1974t2 I p 349 N95-24461
SATO. YAMORU Numerical and expenmental study 01 drag charactenstics
of two-dimensional HLFC airlolls in htgh subsonic. hqh Reynolds number How 1 NAL.TR-1244TI p 331 N95.24998
SCALLION, W. 1. Pertormom of an aerodynamr yaw controller mounted
on the space shunle orbaler body flap at Mach 10 [NASA-TM.109179 I p 330 N9524397
Empirical corrections 01 the rigid rotor interaction wtenual 01 HZ-HZ in the attractive region hmer leatures in the FIR abwrpbon spectra IHTN-9541843) P36t A95-81690
Integrated development of the equations 01 mobon for elasbc hypersonic flght vehicles I BTN-95-ElX95242670755 I p 327 A95-81092
Supaonic qulet-tunnel development for
SCHAEFER. J.
SCHMIDT. DAVID I(.
SCHNEIDLR. STEVEN P.
laminar-hwbulent banslbon research I NASACR- 188040 I p 340 N95-24302
SCHOE8ERL M. R. Fmscsle. polward transport of tropical air during
AASE 2 I HTN-95-70949 1 p 352 A95-78014
W m W n of neural networks to unsteady aerodynamic control P 360 N95-25264
Modeling 01 aircraft exhaust emisuons and inhared spec(ra lor remote measurement of nitrogen oxides I HTN-95-51276 I P355 A95-80861
SCHRECK. SCOTT J.
SCMREIER. F.
SCHROEDER. JEFFERV A. Idenllllcabon and vmulatlon evaluabon 01 a combat
hellcopter in how I BTN-SIEIXB5242670749 I p335 A958tOBB
SCHWND, JOSEPH Anuumnt ol amomcs tachmkgy n European
awuwaca orgamatwns INASAGR-l8920t] p337 NS5-24624
Advanced subsonic airplane design and Bconomic SCOTT. PAUL W.
studm INASACR-1954431 P 338 N95-24304
SR-71 may launch targets lor M8sIe defensetests I HTN-95-91872 1 p 335 A9541974
SCOTT. WILLIAM E.
SHAGAM, RICH Emerging nondestructive inspection lor aging aircraft
1 ~ ~ 9 5 - t 43053 I p 328 N95-25401
Shucture 01 a double-fin turbulent interaction at hqh
p 347 A95-79236
Flow structure in the lee 01 an inclined 6 1 prolate
SHANG. J. S.
speed BTN-95-EIX95222650780]
SHEKARRIZ A.
spheroid I BTN-94-EIX9501144 1 127 1 p 348 A9541027
Development of an intervention program to encourage shoulder harness use and aircraft retrofit in general aviation aircraft. phases t and 2
p 333 N95.24384 IDOTIFAAIAM-95/2 I
NASA-UVA lqht aerospace alloy and structures technology program (LAST) 1 NASACR-198041 p 343 N95-24220
A theoretical and expenmental investigation 01 the llow over supersonic leading edge mnglbody configurations [DRA-TM-AERO-PROP-41 1 p 331 N95-25649
Shock tunnel studes 01 scramjet phenomena I993 I NASA-CR-t 95038 I p 350 N95-25394
Balances for the measurement 01 multipie components of lorce in flows 01 a millisecond duration
p 350 N95-25400
Direct adaptive and neural control 01 mng-rock motion
1 BTN-95-EIX95242670748 I p 327 A95-81099
Dynamlc behavior 01 a magnetic beanng supported let engine rotor mth auxillary beanngs I NASA-CR-197860 I p 338 N95-24213
Shock tunnel studies 01 scramjet phenomena 1993
SHEPARD. WILLIAM T.
SHIFLET. GARY J.
SHIRES. A.
SIMMONS. J. Y.
simon. SAIUENDRA N.
Of Slender delle mngs
SINHA, S. C.
SKINNER, K.
1 NASA-CR-195038 1 p 350 N95-25394
A rombned geometnc approach tor sohnng the Nom-Stokes equations on dynamic grids I NASA-TM-106919 I p 332 N95-26075
SUTER. JOHN W.
SOECIITING. F. 0. A design perspective on thermal barrier coatings
p 344 N95-26120 SOYERS. 0. Y.
NREL airtoll lamilles lor HAWS I DE95400267 I p 357 N95-24882
SOTOUAVOR. JOROE The 1984 Fiber Opbc Sensors lor Aerospace Technology
(FOSAT) Wokshop (NASAGP-10166] p 337 N95-24207
Fundamental mnd tunnel experiments on low-speed
INAL-TR-12281 p 332 N95-25762
SOTOZIKI. TOKUO
flutter of a bpfin contquration wing
SPICER. C. W. Chemlcal compomtwn and photochemical reactivity of
exhaust from waaH turtnne engtnes I HTN-95-51277 1 p356 A9540862
Quanlilydistance requirements lor earth-bermed aircraft SPlVEY, KATHY H.
sfmilem [ADA2796921 p 341 N95-24424
SOUIRE. L C. Thr&mru~I intaractton of wakelboundary-layer
p 329 N95-24210
Shock tunnel studles 01 scramlet phenomena 1993 [NASA-CR-195038 J p 350 N95-25394
Thrust measurements 01 a complete axisymmetric scramlet m an impulse faulity p 339 N95-25395
Scramjet thrust measurement in a shock tunnel p 339 N95-25396
and ~ox /bounduy - layn data report [CUEOIA-AEREOITR-23 1
STALKER, R. J.
B-6
PERSONAL AUTHOR INDEX WENHAN, OIN
STARKE, E. A, JR. NASA-UVa lght herospace alloy and structures
technology program supplemm Alumrrrumbased matenals fcf high speed amalt I NASA-CR-4645 I p343 N95-24676
NASA-UVA lght aerospace alloy and structures teChnOlqy program (LAST) I NASA-CR-198041f p343 N95-24220
Real-time damson a&ng Araaft plndance for wnd
STARKE. EDGAR I, JR
STUlGEL-m
shear amdance
STERN. ANDREW D. I BTN-95EIX95202637575 1 p332 A9578583
I~tvnofavlsbonr*eamsrha7ards b%sedonme
I HTN-95513231 p356 AgsB0908 mtegratnm of radar and bghtrnng data
-RY. The dstnkdm of hydrq)en. nbqlen. and chlorme
radralsnthebrrerstraloqhmtrrOkfabOmhxchmges m 0 3 6e rn em)s~gn of NOW IIUTI tuperronc amaf~ I HTN-95-709351 p 351 A9518MK,
The atmosphenc etfects of maGorpherr amaft. A
I NASA-RP-1359) p357 N95-24274
NASA-UVA hght aerospace alloy and sbuwes t x h n d q n pglram (LA2STI INASA-CR-l98041] p343 N9524220
STRArTow. D. ALE- Real-tm deavon - Araan wnce for wind
shear avodance I BTN-SElX95202637575) p332 A9578583
wntrads
~ O U R m l , RICHARD S.
f r n w q l r s m m
ST-R, GLENN E.
STRATTON. YlCHAEL D. Visual Conhast detedofl umshows fw aIruait
I ADA288616 I p 3 a N95-25607 SILNKI. nlRM(.N - -__
Reentry guidance lor hypanaic Fbghl WYFLEX) vetnck 1 NAL-TR-12351 p334 -25764
SZE. wEKD*I(
T TABIU9EH. A
Analysts of the phystcaf slate of one Arcbc P0l.r snatosmenc clwd based on mm~ I HTN-95-70917 I p351 A 9 5 - r n
Thermal fracture mechanwis m w r a m t hend bsmer coatings p346 N95-26138
FQht retererce dispby lw powaredm STM. acrSn INAL-TR-1251) p337 N95-25005
NREL auto11 faM1Rs lor H A W S I DE95-mZ67 I p 357 N95-24LWz
Aerodynam~ccharact~t~csofmeorktalrsentryvehde
TAKEUCHI. Y. R.
TANAKA, KEUI
TANGLER J. L
TAT& ATSUSHI
expemnenta~rmbelinsn a supmsom Ro*r I NAL-lR-1232j p342 N95-25864
fhght rei- asplay fa POWCKWW S O L wat(
INAL-TR-12511 p337 N95-25005
E m nondestrucwe lnspecbon for agmgsraSn 1 P895143053 I p326 N95-25401
An nterrompanson 01 etrcratt instrumentatton for tropospheric me(Luements Of %%Ifuf dumde IHTN-9591855) p 3 Y A9540643
An intercompar1aon of arrcratt inshumentabon la RopDspherr--tr Of carbow sulfide. hyaogen udhde,andcgbondisMide I HTN-95-91856 1 P= -
TERUI, rusHl
nmmpsm. I(*&
THOR".DowIu)C.
p358 N45-26090
U
V
E 7
WERT, JOHN A. PERSONAL AUTHOR INDEX
WERT. JOHN A. NASA-UVA light aerospace alloy and structures
technology program (LAZST) [NASA-CR-I980411 p 343 N95-24220
WESOKV, HOWARD L. . .,.. ~ . ~ ~ ~ V ~ p s , . = l l c eiirLis o i s~raiospneric aircraft A fourth program report I NASA-RP-13591 p 357 N95-24274
Ouantity-distance requirements for earlh-bermed aircraft
TI.̂ ...- ---.-- -
WHITNEV. MARK G.
shelters
WIESEN. P. Nltrous oxide and methane emissions lrom aero
engines I HTN-95-21363 I p 353 A95-78678
Recent improvements to and validabon of the one dimensional NASA wave rotor model INASA-TM-1069131 p 332 N95-25962
The distnbution 01 hydrogen nltrogen and chlorine radicals in the lower stratosphere Implications lor changes in 0 3 due to emission 01 NO(y) trom supersonic aircraft 1 HTN-95-70935 I p351 A95-7B000
Vertical transport rates in the statospnere in 1993 from observations of CO2. N20. and CH4 I HTN-95 70941 I p 351 A95-78006
The atmospheric enects 01 stratosphenc aircraft A fourth program report I NASA-RP 1359 I p 357 N95-24274
The distribution 01 hydrogen nitrogen. and chlorine radicals in the lower stratosphere Implications lor changes in 0 3 due to emission 01 NO(y) from supersonic aircraft I HTN 95-70935 1 p 351 A95-78000
I AD-A279692 I p 341 N95-24424
WILSON, JACK
WOFSV. s. c.
WOFSV, STEVEN C.
WOODBRIDGE. E. L
WORTMAN. 0. J. PVD TBC experience on GE aircraft engines
p 345 N95-26126
Thermal barrier coatings issues in advanced land-based gas turbines p 344 N95-26122
Advanced subsonic airplane design and economic
WRIGHT, 1. G.
WRIGHT, ROBERT A.
Studies I NASA-CR 195443 I p 338 N95-24304
X XI€, H.
Dynamic behavior 01 a magnetic beanng supporled ]et engine rotor mth auxiliary bearings I NASA-CR-1978601 p 338 N95-24213
VAKOVLEV. V. A. Laser device tor measunng a vessel's spwd
I HTN-95-60992 I p 361 A9580633
Measurements of longitudinal static aerodynamic coenicients by the cable mount system I NAL.TR-12261 p 331 N95.25761
VANAGIHARA. MASAAKI
VANTA. WILLIAM J. Supercooling in hypersonic nitrogen wind tunnels
I BTN-94-EIX95011441134 ] p340 A9581020
Three-dimensional interactton of wakelboundary-layer and vortexlboundary-layer data repOn I CUEDIA-AEREOITR.23 1 p 329 N95-24210
Qrect adaptive and neural cmtrol of mng-rock motion 01 slender delta mngs 1 BTN.95-EIX95242670748 1 p 327 A9541099
Development of a model protection and dynamic response monitonng system lor the M~IOMI transonic laclllty [NASA-CR-195041 I p 340 N95-24388
VEUNG. C. P.
VIM. WOOSOON
YOUNG. CLARENCE P.. JR.
vouna HARRY J. Preload releaaa mechanism
I NASA-CASE-MSG22327-1] p 350 N95-25592 VOUNQ. TERESA
Usng dgtal liltenng lechmques as an ad in wnd turkne data analysts 1 DE9441 18621 p 357 N95-24853
Dynamic stall control lor advanced rotorcraft application I BTN-95-EIX95222650793 I p 334 A95-79249
VUAN. PINJAR Ideal proportional navigation p 342 A9541374
vu. VUNG n.
6-8
Z ZHENG, J.
An analysis 01 aircraft exhaust plumes form accidental encounters I H 1 N-95-70943 I p 351 A95-78008
ZURABVAN, A. 2. Laser device lor measuring a vessel's speed
IHTN-95-609921 p 361 A95-80633
CORPORATE SOURCE INDEX AERONAUTICAL ENGINEERING / A Continuing Bibliography (Supplement 320)
Typical Corporate Source Index Listing
Listings in this index are arranged alphabetically by corporate source. The tile of the document is used to provide a brief description of the subject matter. The page number and the accession number are included in each entry to assist the user in locating the abstract in the abstract section. If applicable, a report number is also included as an aid in identifying the document.
A
B
C
D
E
August 1995
F hd.nl A r M o n *dnhi.tnriar A- CHy, NJ.
BfrdngcaWnntoLarge-Bngnes
h b a * A r M o n ~ Q m b r l d p c . y I . p333 N9524631
Esbmale 01 pmbab~hty of uack detecbon fmm serv~e
[P895-149381] p328 NS5-24295
Federal Aviation Administration plan for research.
p363 N95-24202
DOTIFAAICT-SW14 1 - r w -la
F8d"RI A,rwlm W- DC.
engmeenng and deveIopment. 1995
G Gmleni *ccour(ng ouke, W n m g t o n Dc.
Reporr to Congressional Commnees Tacwal Annaf! Qnamewy n -men1 and production of F-22 u c n f t ~ b e r e b c e d I GAOINSM195-591 p336 N95-26338
Gamfal ucbkca. c*wmni,oH. PVDTBCerrpenerre on GE armtengnes
p345 N95-26126
Effects of cavity dimensions boundary layer, and Mmperatueon~naDernmemphpvsonbendmark data tovaldatecanprtabon .erDBcoutbccuks INASA-CR-4663j p361 N95-24879
O r a 0 1 . T . c h R a r r c h M A U m W G A
I
J
C-1
Linkoeping Univ. CORPORA TE SOURCE
L Linkoeping Univ. (Sweden).
Aspect estimation of an aircraft using library model
IPBY5-1418341 p 360 N95-25894 silhouettes
Lockheed Environmental Systems and Technologies Co., Las Vegm NV.
Parts washing alternatives study United States Coast Guard Project summary and report I PB95-166146 I p 343 N95.26004
M McDonnell-Douglas Aerospace, Long Oeach. CA.
Advanced subsonic airplane design and economic studles I NASACR-1954431 p 338 N95-24304
I NASA-CR-195028 1 p 362 N95-26160
Long endurance stratospheric solar powered airship I PB95-178729 I P 336 N95-26009
Noise impact of advanced high lift systems
Mechanlul Englrmrlng Lab.. Sakura (Japan).
N N a t i o ~ l Anonsutks and !3pacs Admlnlstratlon.
Wsshlngton. DC.
stratospheric cloud based on observations Analysis 0 1 the physical state 01 one Arctic polar
I HTN-95-70917 I p 351 A9577982 The distribution of hydrogen, nitrogen. and chlorine
radicals in the lower stratosphere. Implications lor changes in 0 3 due to emission 01 NO(y) from supersonic aircraft I HTN-95-70935 I p35t A9578000
An analysis of aircraft exhaust plumes form accidental encounters I HTN.95-70943 I p 351 A95-78008
Fine-scale. poleward transporl 01 trcpcal air dunng AASE 2 I HTN.95-70949 I p 352 A9578014
Guidance and control. 1993, Annual Rocky Mountain Guidance and Control Conference. 16th. Keystone. CO. Feb 6-10. 1993 I ISBN-0-87703-365-X I p 341 A95-80389
I NASA.SP.7109(01) 1 p 363 N95-24238
Iourth program report I NASA-RP-1359 I p 357 N95-24274
Aeronautical engineenng A continuing bibliography with indexes (supplement 316) I NASA-SP-7037(316) I p 328 N95-24465
Aeronautical engineering A continuing hbliography mth indexes (supplement 31 7) I NASA-SP-7037(317) I p 328 N95-25798
Research Center, Moffetl F M , CA. Analysis 0 1 the physical state of one Arctic polar
stratospheric cloud based on observations I HTN-95-70917 I p 351 A9577982
NASA video catalog
The atmospheric enects of stratospheric aircraft. A
NatIoMI A*rOMutkS and SpK. Admlnlsmtlon. A m
The distribution of hydrogen, nitrogen. and chlorine radicals in the lower stratosphere. lmplicasons lor changes in 0 3 due to emission 01 NO(y) from supersonic aircraft I HTN-95-70935 I p351 A9578000
Vertical transport rates in the statosphere in 1993 from observations 01 CO2. N20. and CH4 I HTN-95-70941 I p351 A9578006
Fine-scale. poleward transpor( 01 trawl mr dunng AASE 2 I HTN-95-70949 ) p 352 A95-78014
Identilcation and umulation evaluation 01 a combat helicopter in hover 1 BTN-95-ElX95242670749 1 p335 A9541098
SOFIA Stratosphenc Observatory lor Infrared Astronomy p 363 A9541583
Geometnc analysts of mng sectmns 1 NASA-TM-110346) p 335 N95-24629
Aerodynamic shape optimization Of mng and wing-body conflguratms uung control vleorv INASACR-tW0241 p335 N95-25334
Angular displacement measuring device [NASA-CASE-ARC1 1937-1 1 p 362 N95-28015
Aerodvnamics model lor a aenenc ASTOVL Wt-fan airNaH [ NASA-TM-110347 J p332 N9526302
Natlacul Aeronsutlcm snd SDKe Admlnlstratlon. Qoddard SpK. Fllght Cktar. Omonbelt MD.
The distnbutmn 01 hydrogen, nitrogen. and chlorine radicals in the lower stratosphere Implicatlons lor changes in 03 due to emisson 01 NO(y) from supersonic aircraft 1 HTN-95.709351 p351 A95-78000
Comparison of column abundances from three infrared spectrometers during AASE 2 1 HTN-95-70946 I p 352 A95-78011
Chemical chhange in the arctic vortex dunng AASE 2 p 352 A95-78012 1 HTN-95-70947 I
Fine-scale. poleward transport of tropical air dunng AASE 2 I HTN-95-70949) p 352 A95-78014
Guidance and control. 1993 Annual Rocky Mountain Guidance End Control Conference, 16th. Keystone. GO. Feb 6-10. 1993 [ ISBN-0-87703-365-X 1 p 341 A95-80389
Lyndon B. Johnaon sp.Ca Center, Houston. TX. Guidance and control. 1993. Annual Rocky Mountain
Guidance and Control Conference. 16th. Keystone GO. Feb 6-10. 1993 I ISBN-0-87703-365-X I p 341 A9580389
I NASA-CASE-MSG-22327-11 p 350 N95-25592
Langky Reuarch Cmter, Hampton, VA. Viscoplastic response 01 structures lor intense local
heating I HTN-95-415401 p 346 A95-77921
The distribution of hydrogen. nitrogen. and chlonne radicals in the lower stratosphere lmplicatmns lor changes in 03 due to emisson of NO(y) from supersonic aircraft
An analyrus 01 aircraH exhaust plumes form accidental encounters [HTN-95-70943] p 351 A95-78008
Mendlonal distnbutlons of NO(X). NO(Y). and other speces in the lower statosphere and upper troposphere dunng AASE 2 I HTN-95-70944 1 p 352 A95-78009
Gutdance and control. 1993. Annual Rocky Mountain Guidance and Control Conference. 16th. Keystone. CO. Feb 6-10, 1993 I ISBN-087703-365-X 1 p 341 A9540389
Elfects on stratosphenc ozone from hgh-speed mil transport SensltMly to stratosphenc aerosol loading IHTN-95-91842l p354 A95-80830
An intercomparison of aircraft instrumentation for lroposphenc measurements of Sulfur dloxlde [HTN-95918551 p354 A9580843
An intercomparison 01 aircralt instrumentation lor froposphenc measwements 01 carbonyl sulldB. hydrogen sulMe. and carbon disunlde [HTN-95-91856] p355 A9540844
An intercompansan 01 instrumentation lor tropospheric measurements of dimethyl Sulfide Aircralt results for concentmhons at the parts-per-tnlllon level [HTN-9591857] p355 A95-80845
Load allevmbon maneuvers lor a launch vehcle p342 A9581360
DSMC calculabons for 70-deg blunted cone at 3 2 km/s in nmcgen INASA-TM-109181] p 348 N95-24396
Performance 01 an aerodynemlc yaw controller mounted on the space Shuttle m e r body llap at Mach 10 I NASA-TM-109179l p 330 N95-24397
A crew-centered flight deck design philosophy lor Hgh-Speed Cwil Transport (HSCT) aircraH INASA-TM-t09171] p 335 N95-24582
Ambon system capacity improvements through technology [ NASA-TM-109165 ] p333 N9524633
Internal periormance charactensws of lhrust-vectored maymmetnc ejector nozzles [NASA-TM4610] p 331 N95-25338
~nandevaluabonolaloam-lilledhat-smfened panel COIICBP~ lor MNah plmary structural applcatmns
R.uorrh c.nhr. Clovolmd. OH. The 1984 Flkn Opw Sensors lor Aerospace Technology
(FOSAT) Work~hop INASA-CP-l0166] p 337 N95-24207
Crosafkw miung of noncircular jets 1 NASA-TM-1-51 p338 N95-24390
The enect of aRtude conditionson the parkle emissmns Of a J85-GE-5L turbojet engine I NASA-TM-108669 ] p339 N9524581
Aucnunnt ol NYMICS tachnology in European a.rolp.cn agambons [NASA-CR-l89m ] p337 N95-24624
Recent nprovements to and validation 01 the one dnnmswnul NASA wave rotor model I NASA-TM-106913] p 332 N95-25962
A combned geometric approach lor solnng the NavierStokes equabons on dynamic gnds [NASA-TM-106919] p332 N95-26075
Natiorul Aeronautics and Space Admlnlstratlon.
Preload release mechanism
Nation81 AerOMutICs and Space Admlnlstntlon.
I HTN-95-70935 I p 351 A95-78000
INASA-TM-tWl75J p 346 N95-26251 Natlocul A .mruut iu HWI SpK. Admlnlstntion. Lwls
Thermal Bamer Coating Workshop I NASA-CP-10170] p344 N95-26119
Thermal barrier coatings for aircraft engines History and directions p 344 N95-26121
Jet mixer noise suppressor using acoustic feedback [NASA-CASE-LEW-15170.2] p 362 N95-26187
yet!=5:! rerowgt!ce scsce ac!&nistrrtmn Marahall Space FlIght Center, Huntsvllk, AL.
Guidance and control 1993 Annual Rocky Mountain Guidance and Control Conference. 16th. Keystone. co. Feb 6-10, 1993
p 341 A95-80389 [ ISBN-0-87703-365-X 1
Study on tensile fatigue testing method of unidirectional liber-rerun matnx composites INAL-TR-1241 I p 343 N95-24989
Enect of film coolingiregenerative cooling on scramlet engine performances (NAL-TR-1242 I p 339 N95-24990
Numencal and expenmental study of drag characteristics of two-dimensional HLFC airfoils in high subsonic. high Reynolds number flow I NAL.TR-1244T I p 331 N95-24998
Preliminary expenments of an optlcal fiber display [NAL-TR-1257 I p 362 N95-25004
Flight reference display for powered-lift STOL aircraft p 337 N95-25005 [NAL-TR.1251 1
Low speed aerodynamic charactenstics Of delta wings with vortex flaps 60 deg and 70 deg delta wings (NAL-TR-12451 p 331 N95-25105
Aerodynamic characteristics 01 the orhlal reentry vehicle expenmental probe fins in a supersonic flow [NAL-TR-1232] p 342 N95-25664
Measurements 01 longitudinal static aerodynamic coentcsnts by the cable mount system I NAL-TR-1226 1 p 331 N95-25761
Fundamental mnd tunnel experiments on low-speed flutter 01 a tiplin configuratlon mng INAL.TR-1228l p 332 N95-25762
Reentry guidance lor hypersonic Flght Expenment (HYFLEX) vehicle
p 334 N95-25764 A qumt STOL Research AircraH Development program
[NAL-TR-t223 I p 336 N95-25862
N i t l o ~ l Aerosp.cn Lab., Tokyo (Japan).
INAL-TR.1235 I
Natlacul Defence Remarch Establlshmnt. Llnkoeplng (SWodoIl).
Interlacing a digital compass to a remote-controlled hellcopter [ PB95-164927 1 p 340 N95-24260
Gammburg. MD.
and applcabon of thermal bamer coatings
Natiorul Inst of Standards and Technology.
Measurement methods and standards for processing
p 344 N95-26123
Urung dgital filtenng techniques as an aid in wind turbine data anabs
p 357 N95-24853 I M94-011862 1 NREL airloll familles for HAWS
[DE95-000267 1 p 357 N95-24882 Wind technology development Large and small
ILUbIneS I DE95-000286 1 p358 N95-26090
Dc. AirNafl acndent report Impact mth Mast fence upon
landing rollout Actlon Air Charters flght 990 Piper PA-31 -350, N990RA. Stratford. Connecticut.27 April 1994 [PB94-91041Ol p 333 N95-24206
NLS Flght Simulabon Laboratory (FSL) documentation
Development of a model protection and dynamic response mOn(0nng system lor the national transonic ladm
Natiwl R m r r a b h Enorgy Lab.. Golden. CO.
NaUorul Transportmtlon Safety Board. WaDhlngton.
Natlw A m ~ i c m &rvkos. Huntsvllk, A L
[NASACR-t06564J p 363 N95-24439 North C.rourU State Unlv.. R w h . NC.
INASACR-tg50411 p 340 N95-24388 North Dakota Unlv.. Omnd Forks. ND.
Prelimnary sMIYSIs of Uweni ly of North Dakota aircraft data horn the FIRE clms IFO-2 I NASACR-188038 I p 357 N95-24219 "I Rwnouoh .nd Englnnrlng Corp.. Wobum.
Small gss turtnne component evaluabon study nk
p 338 N95-24293 [PB951475421
0 Oak R#O. Natloc*ll bb., TN.
Thermal COndUCtMly 01 zirconia thermal barner p 345 N95-26133
*Ir WtkJ Contor, n n k n AFB. OK. Proceeding8 Of the 2d USAF Aging Aircraft
Conference I AD-AZ88217 1 P 336 N95-25578
Okhhonu
c-2
Wright Lab. CORPURA E SOURCE
O q a n i s 8 t i c v o o r T a o c p n t ~ ~ -, am f-).
Pamal camera automainn in a stmutated Unmanned As V e W I ADA268786 I p 337 N95-26190
Affodynamw: optnra2atlon studes on advanced orrnct ycthod*bx,Losruto*cA.
an%ectwecanpners I NASA-CR-198045] p330 N95-24379
The cnupbng of fluids. dynamics. and controls on advanced arcMecture oanplterr I NASACR-197727 1 p360 N95-25797
P
Q - univ, saint Lusi. (rurrmy.). shocrc tunnel studies of scmnyet phemmem1993
I NASACR-195038 I p350 "4 Thrust measurements of a complete axisymmetrlc
wanyet m an nnpuke faatny p 339 N95-25395 Suan-qet thrust measuemeni in a shock tunnel
p339 N95-25396 Thrust measurement m a 2-D manyet mzzle
p339 -25397 The Suoeromtal ExPamton T & e cmept expemem
and analyss p34t N95-25393 B a l a n c e s f o r t k m e a s u r e m e n t o f m u m p k ~
p350 N9125400 of force m flows of a mllDecond dvabon
R R.dt.n cap.. mme8rdITri.nglc RL,wc.
NRmgw, ox& ermsyw .nd mea controt fmm unmstalled auaaf! e m m endosed test ce#t Jont report to Congress on the Enwonmental Ronrctm
- Departmfflt of T r a m shrdy IPB95-1662371 p358 N9126005
I-). onentshon detamrnabon of .IcRn usmg visual 3D
mat&ng and radar Case study 2 Ip895-165791 I p350 N9525749
High frequency flow-structural anencbon in deme SubSMnc fbds I NASA-CR-4652 I P330 N95-24217
Rcliwh Inst. Of w.tiorpl D.1.na, UnLaphO
Rockwel l l n & n W h d Cap,)*ntnlk. N
S
T Tex8s A U W., College !38tiDC TX.
Thermohydrodynamic analysis of cryogenic IW turbulent flow knd film hearings. phate 2 1 NASA-CR-1974121 p349 N95-24461
T e r n Twhnoloorrl . Univ, TX. A bnef survey of constriuned mecham and vanatmat
problems m lenns ot Mferenbal tams
How lo fly an aman wth canrol theory and sphnes p360 N9425803
p360 N95-25805
V
W W ~ S . v m r h R k e r b , ~ S C .
Res~dual Stress Measuemenls with Laser Speckle CorreIaKm Inlederomeby md Local Heat TresWlg IDE-1 p349 N95-24598
Analps ol watpmg effectson the stahc and dvnamc W r h i a s b c c u n l v . , ~ I [ s
response of a seat-lype stnrbre I NIAR-94-12 I p348 N95-24211
Heat transkc meawrremernS m small scale wmd
1-886891 p341 NQ5-26053
wnpm Irb, w*smanm Am, on hnnels
c-3
FOREIGN TECHNOLOGY INDEX , August 1995 AERONAUTICAL ENGINEERING I A Continuing Bibliography (Supplement 320) I ,
Typical Foreign Technology Index Listing
Listings m this index are arranged alphabetically by country of intellectual origin. The title of the document is used to provide a brief description of the subject matter. The page number and accession number am included in each entry to assist the user in locating the abstract in the abstract section. If applicable. a rspon num- ber is also included as an aid in identifyin0 the document.
F
G
I
~~damen(ai vnd tunnd ewmnents on )a*-speed
INAL-TR-12281 p332 h195-25762
[ NAL-TR-1235 1 p334 N8525764
[NAL-TR-1223] p336 N95-2sB62 bngendurancertratosphenc~paversdsrphp
[ PE95-178729 1 p336 N95-2tioo9
flutter of a bphn tcnhsuabon *mg
Reentry gudance for hypcroomc FI@ Ewenmml (HYFLEX) ve(rde
A quet STOL Researdl I\lrcnn hw Progam
N
P
R RUSSU
Larerdencetameasunng a W S s p e e d 1"--21 p361 A9580633
JPRS mpa? Saerre and tedndogy Central Elrasla I JPRSUST-94427 1 p349 N952U70
JPRSmpa? SaarreMdWChotow CenlraIEurasa I JPRSUST-Bc018 1 p349 N95-24472
JPRS repod: SasnCe IJPRSUST-95-0111
and tednolqn. centrsl Eussla D335 N95-24541
T
U
D-1
UNKNOWN
Unsteady lift on a swept blade tip I BTN-94-EIX95011441154 1 p 329 A9540030
Three-dimensional interaction of wakelboundary-layer and vortex/boundary-layer data report I CUEDIA-AEREOITR-23 I p 329 N95-24210
A theoretical and exoenmentzl wes!~gi?~? z! :Le f;cw over supersonic leading edge winglbody configurations I DRA-TM-AERO-PROP-411 p 331 N95-25649
UNKNOWN Hypersonic model testing in a shock tunnel
I ETN-95-EIX95222650789 I p 329 A9579245 SR-71 may launch targets lor missile defense tests
I HTN-95.918721 p 335 A95-81974
FOREIGN TECHNOLOGY INDEX
D-2
CONTRACT NUMBER INDEX AERONAUTICAL ENGINEERING / A Continuing Bibliography (Supplement 320)
Typical Contract Number Index Listing
Listings in Wis index are arranged alphanumeri- cally by contract number . Under each contract number the accession numbers denoting dow- ments that have been produced as a rasull of research done under the contract are shown . The accession number denotes the number by which the citation is identified in the abstract se~%on . Preceding the accession number is me page number on which the citation may be found .
AF PROJ . 2404 .................................... P341 DE-AC04-94AL-BSOW ......................... p 330 NBJ2uo8
DE-AC0989SR-18035 ......................... p 349 N9S-24598 E-AC36-83CH-10093 ......................... p 3 R "5-24853
NS26053
DE-Aa)8-93NV-11265 ......................... p 358 N9525110
p357 m)5-24802 P358 -
WT-FA4H2IA4044 ........................... p 328 N9524295 DTFAOP9l-AMX)IB ............................ p 328 W5-25401
F08635-82M131 p 356 A8580852
EPAbB-CXM120 ................................... p 343 N9528ay EPA-68-D1-0177 .................................. p358 NE--
F33615-92-0-2293 ............................... p 328 N9525607 G~~-5089-291-2077 ............................. p 338 N95-24293
NAGW-1727 .......................................... p352 A9576Q14
NAGW-674 P350 - NAG1-1607 .......................................... p3.u) NgE-24302 NAG1-745 ............................................ p a 3 N95-24220
p343 N9524878 NAG2-731 ............................................. p 351 AB578ooo NAG3-1434 ........................................... p349 NE524461
F08635-9160189 ............................... p 341 -24424
NAGW-1230 .......................................... p351 A9578Mx)
NAGW-2183 .......................................... p351 A95-
NAG1-1065 .......................................... p335 -24630 NAG1-1351 ......................................... p 357 -4219
............................................
NAG31507 ........................................... p333 -244213 NAG3-1561 ........................................... p338 N95.2-
NASl-lSBlO ......................................... p361 N95.26oeS NAS1-16394 ......................................... p361 NB52608s
NASl-14101 ......................................... p 361 -26085 NAS1-14472 p361 N95-26085
NAS1-17070 ......................................... p361 NE&28oBs NAS1-17130 ......................................... p 361 NBS-26085 NASl-18605 p361 N95-26085 NASl-18935 ......................................... p342 hS5-61360 NAs1-19ooo ......................................... p 342 A9581360 NAs1-19061 ......................................... p361 NE-24079 NAS1-19192 P3- - NAs1-19360 ......................................... p334 N6125341
NAs1-2opB ........................................ p 330 NE524443
NAs3= ......................................... p338 N95.24390 "53-25985 ......................................... p 338 NS243M NAs368822 ......................................... p 337 N95-24624 NAs8-37925 ......................................... p363 N9524439 NAS~-30107 ......................................... N95-24217
.........................................
NAS1-19480 p361 -26085 NAS1-1- p 351 AB57&lOO NASI-20103 ......................................... p362 NB5.20180
p335 Nss-zS-334 ......................................... P332 Nss-25882
NCCl-141 ............................................. p340 N95-24380 NCC2-374 ............................................. p348 N9524412
p349 N95-24413 NCC2-694 .............................................. p351 A9578006 -799 .............................................. p360 N9525797 Ncc2-Bo6 .............................................. p330 N95.24379 NGT-50675 ........................................... p333 N95.24391 NSFATM-89-21119 ............................. p351 A9578000 NSG5-175 ............................................. p 352 AS7801 1
p352 A9578012
p330 -24397 RTOP282-10.Q1-01 ............................. p330 -24566
RTOP 50559-3&04 ............................. p331 N9525338
RTOP 505-59-5241 ............................. p361 N9524079
RTOP 50564oO .................................. p337 -24207 RTOP 50562-00 .................................. p339 N9524561 RTOP 50562-50 .................................. p332 N9525962 RTOP 50562-52 .................................. p332 N95.26075 RTOP 50563-5008 ............................. p 346 N9526T51 RTOP 50563-52 .................................. p344 N9526119 RTOP 50564-52-01 ............................. p335 N95.24630 RTOP u)5683001 ............................. p330 N95-24443 RTOP so56I3.32 .................................. p332 N9526J)2 RTOP 5o5692001 ............................. p333 N9524633 RTOP 505-70.6204 ............................. p 350 N9525394 RTOP f05#)-5201 ............................. p361 N952elms RTOP 537-06-2006 ............................. p343 N9524878
RTOP53801-13-01 ............................. p334 NE-25341 ~ U B w l S o l ............................. p362 N9526160
RTOP 24280.0101 ............................. p348 N9524396
RTOP5051011 .................................. p335 N 9 5 2 w 9
RTOP 50559-3641 ............................. p330 N9524!566
RTOP 5055&8501 ............................. p340 -24388
RTOf' !%'-0B-21-01 ............................. p335 N95-24582
RTOP 5380&11 .................................. p338 N95-24304
August 1995
REPORT NUMBER INDEX ~~
AERONAUTICAL ENGINEERING / A Continuing Bibliography (Supplement 320)
Typical Report Number Index Listing
NASA--1 BB030 .......................... p 13 N95-11410 . t I I 7
NUMBER
Listings in this index are arranged alphanumeri- cally by report number. The page number indicates the page on which the citation is located. The accession number denotes the num- ber by which the citation is identified. An aster- isk r) indicates that the Item is a NASA reporr. A pound sign (a) indicates that the nom is avail- able on microfiche.
A-950019 ........................................ p335 N9524629'X A-950051 ........................................ p 332
ADA279692 ................................ p341 N95-24424
AD4288395 ............................... p 350 N95-25606
N95-26302 * #
~ ~ - ~ 2 8 8 2 1 7 ................................. p m ~95-25578
ADA2B8618 ................................... p328 -25607
ADA208689 .................................. p341 N95-26053 ADA288624 ............................... p 334 N95-25609
AD-A288786 .................................. p337 N9526190
AFCESAIESL-TR-92-25 ................ p 341 N9524424
AFOSR-94-0756TR ........................ p 336 N95-25570
AlAA PAPER 95-0732 ................... p 338 N9524390 * #
AL-TR-19940116 ........................... p 328 N95-25607
AR-008-306 ................................... p 336 N%2S935 AR-008389 ..................................... p 339 -25936 AR-008923 .................................. p 327 N95-24200 AR-008-924 .................................... p 328 N95-24201 AR408-938 .................................. p 348 N95-24203
ARL-GM3 ...................................... p336 N95-25635
AAL-SR-18 ................................... ~. p350 NBS-25608
ARL-TN48 ...................................... p 339 N95-25936
ATCOM-TR-95A-001 .................... p 330 NE-24566 * #
5259xU ......................................... p 336 -26338 #
BTN-94IlX94401359745 ............. p 346 A9577379 BTKBCEIX914213U)050 ............. p 347 A9578494 BTKBCflX91421372285 ............. p 343 A9578467
B T N - o c E I ~ l l U l 1 2 0 ............. p347 A958oou BTN-BCEIX95011441127 ............. p 348 A 8 5 B l W BTN-ocED(95011441134 ............. p340 A95.81m
BTN-BCEIXB5011441154 ............. p329 *IK8omo BTN-BS-EIXSZW637575 ............. p 332 ~ 9 5 - 7 8 ~ 3 BTN-05-EI-Se2 ............. p 347 A9578576 BTKBS-EIm52226Wrn ............. p 347 A95-79236 m-m1 ............. p 327 A9579237 BTKBIElrsSmtiSOSS2 ............. p 358 A957s238 BT?t9sE~=S22%50784 ............. p 334 A9579240 BTKBMIxo52226M)789 ............. p 329 -79245 BTK95-€1xgY22650790 ............. p 329 A9579246 BTK95EIX95222650791 ............. p 329 A85-79247 BTKBsuX952p650792 ............. p 329 A9579248 BTK=-EIX952p650793 ............. D 334 A9579249
BTKBCElXgSOl1441078 ............. p 348 A9581056
B T N - ~ l X g S O l l U l 1 4 2 ............. p 347 A95.81012
BTK95IIX95m650785 ............. p 340 BTN-%EIx952*2670746 ............. p 327 BTN-%EIX95242670747 ............. p 359 BTK95EIx95242670748 p 327 BTK95hlx9521287m*9 ............. p 335 BTN-95-EIXgy42670750 ............. p 334 B T K % E I x 9 5 2 a m l ............. p 336 BTKB5E0(95242670754 ............. p 342 BTN-%EIX95242670755 ............. p 327 BTK95EIX95242670759 ............. p 359 BTN-%EIx95242gm766 ............. P 359 BTK95E1X95242670708 ............. p 359 BTN-95-EIX95242670770 ............. p 327 BTK9SEIXS5242679097 ............. p 359
CONF-93042Wl ........................... p 357 CONF-9410259-1 ........................... p 358 CQNF-941210-2 ............................. p 358 WNF-950130-3 ............................. P330 CONF-9502263 P 349 .............................
C W 9 3 1 0 l R 5 1 2 7 ..................... p 362
CUEDIA-MREOITR-23 ............... p 329
DES401 1862 ..................... p 357 DE95QoD267 .................................. p 357 DE95QoD286 .................................. p 358 DE95MK1625 ...................... P358 DE95004757 P330 DE9566M)B2 P 349
P362
DOT-VMSCFM-944 .................. p 328
..................................
..................................
DOTIFMIAM-9512 ....................... p 333
DOTIFAAICT44190 p 328
D R A - V a l p 331
D R A I A P ~ l I l . 0 p 331
DsTcbTR-0061 ...... p 327 DsTo-TRM)62 p 328 DsTcbTR-0072 ......................... p 348
E-9477 P 338 E4408 _ ........................................... p 338
E- ............................................. p 337
EGG-112853011 p 358
FOA-G30763-8.4.3.4 __ FoAwo7883.6 ........
WIHsIAD95-59 P336
-14 p 341 "-95-11475 .............
"-9541799 HTKB541e.33 ................................ p353 "-9541801 ................................ p356
A95-79251 A9581101 A95.811w A9581099 A9581098 - A95.81097 A9581096 A9581093 A9581092 A9581UB A9581W1 A9581079 A9581077 A9581253
N%24%3 # N95-25110 NBS-26090 # N95-243oe # N95-24598 #
N%-26160 * #
N9524210 #
N95-24853 # N95-24882 X N 9 5 . m x Ns5-25110 N9524308 # -4588 # NBS-25978 #
-24295 X
N95-24384 #
-24631 C N95-25401 -24295 X
N9525649 #
N9sEJ649 #
Ns5-24200 N%-24201 N95-24203
NKL24Sl * # NEi-24207 * # NQ5-24390.1Y N95-243fn-d N95-26119 - # N95-243W'I NBS-24524 - # N8525882.t Ns5-26075 * #
N95-25110
-2aoOs # Nss.26lXn #
-2!ie94 # N95-2426Q
-26338 #
Ns5-24293
A95803(19' AeSm453 ~ 7 3 6 7 8 A957m79 Ao571Dn - Agsdo525' A%aQs5a A958184B A95818W A858086D AS500661 A9iBo882
"-95-51m ................................ p 356 "-9551263 ................................ p 356
"-9560992 ................................ p 361 HTN-95-51323 ................................ p 356
HTN-9570917 ................................ p 351 HTN-9570935 ................................ p 351 "-95-70941 ................................ p 351 "-9570943 ................................ p351 ti-rN-957091( ................................ p 352
"-9591841 ................................ p 354
"-9591843 ................................ p 354 HTN-swiess ................................ p EA "-9591856 ................................ p 355 HM-6191857 p 355
HTN-9591842 ................................ p 354
"-9591872 ................................ p 335
IC941138 ........................................ p 362
IFTR-13IlSW ................................. p 361
INT-PATENTcLwsFMc7100 . p362
~~~~~~~~~11/16 p 362
INT-PATENTCUSSHOlR-131629 p 350
IsBKO87703-366x ...................... p 341
JPRSUsT-4co18 .......................... p 349
JPRS-UST-94032 .......................... p 350 JWSUST-94-027 .......................... p 349
JPRSUST-95011 .......................... p 335
L-17386 ........................................... p 331 L-17409 p 330
rr-773 P a
NAL-TR-1223 P a NAL-TR-1226 ....................... p 331 NAL-TR-1228 .................................. p 332 NM-TR-1232 .................................. p 342 NM-TR-1235 .................................. p 334 NAL-TR-1241 .................................. p 343 NAL-TR-1242 .................................. p 339 NAL-TR-1244T ............................... p 331 NAL-TR-1245 ....................... NAL-TR-1251 .................................. p 337 NAL-TR-1257 .................................. p 362
NAS 1.15:106m9 P= NAS 1.15108865 ........................... p 338
P332 P=
NAS 1.15109175 ........................... p 346
NAS 1.15106913 ...................... p 332
NAS 1.15106171 p 335
NAS 1.263gfiOu ........................... p rrl NAS 1.2&1%443 ........................... p 338 NAS 1.2&1965&( ........................... p 363 NAS 126397412 ........................... p 349
........................... NAS 126:19m P=
August 1995
F-1
NAS 1.26198024 REPORT NUMBER INDEX
NAS 1.26:198024 ........................... p 335 N95-25334 * # NAS 1.26:198029 ........................ p 348 N95-24412 * # NAS 1.26:198030 ......................... p 349 N95-24413 * # NAS 1.26:198038 .......................... p 357 N95-24219 * # NAS 1.26:198040 .......................... p 340 N95-24302 * # NAS 1.26:198041 ........................ p 343 N95-24220 * # NAS 1.26:198045 .......................... p 330 N95-24379 * # NAS 1.26:4645 ............................... p 343 N95-24878 * # NAS 1.26:4652 .............................. p 330 N95-24217 * # NAS 1.26:4653 ............................... p 361 N95-24879 * # NAS 1.26:4654 .............................. p 335 N95-24630 * # NAS 1.26:4660 ............................... p 338 N95-24392 * # NAS 1.55:10166 ............................ p 337 N95-24207 * # NAS 1.55:10170 ............................. p 344 N95-26119 * # NAS 1.61:1359 .............................. p 357 N95-24274 * #
NASA-CASE-ARC11937.1 ........... p 362 N95-26015 *
NASA-CASE-LEW-15170-2 ........... p 362 N95-26187 *
NASA-CASE-MSC-22327-1 .......... p 350 N95-25592 . NASACP-IO166 ............................. p 337 N95-24207 * # NASA-CP-10170 ............................. p 344 N95-26119 * #
NASA-CR-189201 ...................... p 337 N95-24624 ' # NASA-CR-195028 ......................... p 362 N95-26160 * # NASA-CR-195033 ................... p 330 N95-24443 * # NASA-CR.195038 ....................... p 350 N95-25394 * # NASA-CR-195041 ........................ p 340 N95-24388 * X NASA-CR.195043 ..................... p 361 N95-26085 * # NASA-CR-195067 .......................... p 334 N95-25341 * # NASA-CR-195443 .......................... p 338 N95-24304 * # NASA-CR-196564 ......................... p 363 N95-24439 * # NASA-CR-197412 ....................... p 349 N95-24461 ' W NASA-CR-197697 .......................... p 333 N95-24391 ' # NASA-CR.197727 ...................... p 360 N95-25797 ' X NASACR~197860 ........................ p 338 N95-24213 * X NASA-CR.198024 ......................... p 335 N95-25334 * # NASA-CR-198029 ......................... p 348 N95-24412 ' # NASA-CR-198030 ........................ p 349 N95-24413 ' # NASA-CR-198038 ...................... p 357 N95-24219 * # NASA-CR.198040 ........................ p 340 N9524302 ' # NASA-CR.198041 ................... p 343 N95-24220 X NASA-CR-198045 ...................... p 330 N95-24379 * W NASA-CR-4645 . . . . . . . . . p 343 N95-24878 * X NASA-CR-4652 . . . . . . . . . . . . . . . . . . p 330 N95-24217 ' # NASA-CR-4653 . . . . . . . . . . . . . . . . p 361 N95-24879 * # NASA-CR4654 . . . . . . . . . . . . . . . . p 335 N95-24630 * # NASA-CR4660 ........................ p 338 N95-24392 ' #
NASA-RP-1359 .................. p 357 N95-24274 #
NASA-SP-7037(316) ...................... p 328 N95-24465 * NASA-SP-7037(317) .................... p 328 N95-25798 ' NASA-SP-7109(01) .................... p 363 N95-24238 * #
NASA-TM-106669 ..................... p 339 N95-24561 * # NASA-TM-106865 ........................ p 338 N95-24390 ' #
NASA-TM-106919 ......................... p 332 N95-28075 * # NASA-TM-109165 .................. p 333 N95-24633 * # NASA-TM-109171 .......................... p 335 N95-24582 * #
NASA-TM-106913 ........................ p 332 N95-25962 * #
NASA-TM-109175 .......................... p 346 N95-26251 ' # NASA.TM-109179 ........................ p 330 N95-24397 ' # NASA-TM-109181 ........................ p 348 N95-24396 ' # NASA.TM-1 10346 .......................... p 335 N95-24629 * # NASA.TM-110347 ........................ p 332 N95-26302 ' # NASA-TM-4610 .............................. p331 N95-25338 ' # NASA-TM-4634 .............................. p 330 N95-24566 * #
NIAR-94-12 ................................. p 348 N95-24211 #
NREC-1762 .................................... p 338 N95-24293
NRELITP440-7224 ...................... p 358 N95-26090 # NRELITP-441-7077 ................... p 357 N95-24853 # NRELITP-442-7109 .................... p 357 N95-24882 #
NTSBIAAR-94I08 ........................ p 333 N95-24206 #
OMl-02-93 ....................................... p 330 N95-24379 * #
PB94-910410 .................................. 0333 N95-24206 # PB95-141834 .................................. P 380 N95-25894 # PB95.143053 .................................. P 328 ~95-25401 PB95-147542 .................................. P 338 N95-24293 PB95-140381 .................................. p 328 N95-24295 # PB95- 164927 ..................... p 340 N95-24260 PB95-165791 .................................. p 350 N95-25749 PB95-166146 ................................. P343 N95-26004 # P695-166237 .................................. p358 N95-26005 # PB95-178729 .................................. p 336 N95-26009
REPT-944 ....................................... p 330 N95-24443 ' #
RIACS-TR-05-01 .......................... p 335 N95-25334 * #
SAND-94-3190C ............................ p 330 N95.24308 #
TDCK-94-2179 ............................... p 337 N95-26190
TNO-TM-1994-6-16 ..................... p 337 N95-26190
TR-080594-4871F .......................... p 333 N95.24391 * #
UC-706 ............................................ p 358 N95-251 10
US-PATENT-APPL-SN-046256 .,,.. p 362 N95-26187 * US-PATENT-APPL-SN-194654 ..,. p 362 N95-26187 * USPATENT-APPL-SN-230571 ._.. p 350 N95-25592 * USPATENT-APPL-SN-774490 .__. p 362 N95-26015 *
US-PATENT-CLASS-250-225 ....... p 362 N95.26015 * USPATENT-CLASS-356-152 ....... p 362 N9526015 * US-PATENT-CLASS-356-34 ......... p 362 N95-26015 * USPATENT-CLASS-439-248 ....... p 350 N95-25592 *
US-PATENT-CLASS-60-271 ......... p 362 N95-26187 *
N95-26015 ' US-PATENT-5,392,597 .................. p 362 N95-26187 * US-PATENT4397244 ................ p 350 N95-25592 *
UVAI528266IMSE94I117 ............ p 343 N95-24220 * #
WEE-228-001 ................................ p 341 N95-24424
USPATENT-CLASS-60-204 ......... p 362 N95-26187 *
USPATENT-5.137.353 .................. p 362
WESITNIDRP-4-10 ....................... p334 N95-25609
WL-TR-94-3097 p341 N95-26053
WSRCMS94-0632 D 349 N95-24598 #
F-2
ACCESSION NUMBER INDEX ___ -~ ~
AERONAUTICAL ENGINEERING / A Continuing Bibliography (Supplement 320) August 1995
Typical Accession Number Index Listing .
N95-10247 i p 1 5 71
Listings in this index are arranged alphanumerically by accession number. The page number indicates the page on which the citation is located. The accession number denotes the number by which the citation is identified. An asterisk (*) i n d i t e s that the item is a NASA report. A pound sign (W) indicates that the item is available on microfiche.
A95-77379 A95-77921 * A9577902 A95-7Booo A95-78006 - A9578008 A957B009 * A957801 1 * A95-78012 * A95-78013 * A9578014 * A9578467 A95-78494 A95-78576 A95-70503 A9178670 A95-78679 A9579236 A9579237 A95-79230 A9179240 A9579245 A9579246 AS79247 A9579240 A95-79249 A95-79251 A9579453 A95-79988 A95-60030 A958oM1 A95-8WB9 * A9580390 A95-BMo5' A95-60409 AB580427 A9580525 * A91B0559 A9580633 A9540529 A9580830 * A9580831 A9180813 A958o&u' A95-80&(5 * - A958oBB1 A954WB62 AB5ooBB7 A954Ww AB580908 A9541012 A9541020 A9581027 A9581056
P 346 P346 p 351 p 351 p 351 p 351 P 352 p 352 P 352 P 352 P 352 P 343 P 347 P 347 P 332 p 353 P 353 P 347 p 327 P 358 P334 P329 P 329 P 329 P 329 P334 P340 P353 P 361 P = P 347 P 341 P 341 p 359 P 342 P 342 p 353 P 353 P 361 P 354 P 354 P 354 P 354 p 355 P355 P355 P355 P 356 P356 P356 P356 P 347 P 340 P a P340
A9581077 p m A9581079 p359 A9581M11 p359 A9581088 p359 A9581092 p 3 n A9581093 p342 A9581098 p336 A9581097 p334 A9581098' p335 A9581099 p327 A95811a) p359 A9541101 p327 A9561253 p359 A9581360. p342 A9581374 p342 A9581503. p363 A9581640 p356 A9581690 p361 A9581974 p335
N95-242W p327 N95-24201 p328 N9524202 # p363 N95-2uo3 p a N-24206 # p333 N95-24207 't p337 NB5-24210 # p329 NB5-2Ul1 # p34E N9124213*# p338 NS24217 '1 p330 w&24219'# p m MKZlPO*# p343 Ne52VJe'X p m - P340 N954M2?4*# p 3 n N952- p330 - # P328 N9524m2-1 p340 N95.24304'1 p33a N95-243Ce Y P330 Ns5-2437s.1 p330 N95-24384 Y p333 N95-2uBB'# p340 N952*3#)'# p 3 a - t P338 "-=*I p340 " - 2 m 9 1 p330 "-24412.x p34E NBS-WlS*# p949
"-24439.11 P363 N9124443.I p330 N95-24461 '# p 349 N95-2-- P320
NB5-24SD1:r p333
-24424 p341
N95-24470 X p349 N95-24472 X p349 N95-24541 # p335 NS24561'X p339 N95-24566*# p330 N95-24582'1 p335 N95-24590 X p349 N95-24624 ' X p337 N95-24629'1 p335 N95-24630'X p335 N95-24631 X p333 N95-24633'1 p333 N95-24759 I p350 N95-24853 X p357 N95-24070.1 p343 N95-24079'Y p361 N95-2uLB2 6 p357 N95-24909 X p343 N95-24990 X p339 N95-2- X p331 N95-25004X p362 N95-25005 # p337 N95-25105 I p331 N95-25110 p359 N%25264'# p360 N95-25334'1 p335 N%25338'# p331 N95-25341'X p334 N95-25394'# p350 N95-25395'X p339 N95-25396.1 p339 N9525397.1 p339 N95-25399'11 p341 N95-25(00'# p350 N95-25401 p320 N95-25578 p336 N95-255W * p 350 N95-25606 P350 N95-25607 p320 NBs-25608 P334 N95-25649 X p 331 N95-25664 X p342 N95-25749 p350 N95-25761 # p331 N95-25762 X p332 N95-25164 X p334 N9525797:X p360 N95-25790 p328 N95-25BW'X p360 N95-25805.6 p360 N95-25862 X p336 N95-25894 X 11360 N95-25935 p336 N85-25936 p339 N%25962'# p332 N95-25978 # p362 N95-26ow # p343 N(K2M105I p350 N95-26009 p336 N95-2€015 * p 362 N95-26053 P341 N%26075'# P332 N95-26085'1 p361 N95-26oKl # P358 N95-26119'X p344 N95-26120'X p344 N95-26121'X p344 N95-26122'X p344 N95-26123'1 p344 N95-26124.1 p345 N95-26125'1 p345 N95-26126'C p345 N%zs128'# p345 N9526131'# P345 N85-26133*# p345 N95-2613B8# p346 N95-26140'# p346 N95-26160:1 P362 N95-26187 p362 N95-26190 p337 N95-26251'X P346 N95-26302'X p332 NQS-26330 p361
N95-26330 # p336
El
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Rev. 5/95 App-5
REPORT DOCUMENT PAGE I. ReportNo.
NASA SP-7037 (320) 2. Government Accession No.
1. Title and Subtitle
Aeronautical Engineering A Continuing Bibliography (Supplement 320)
9. Security Classif. (of this report) 20. Security Classif. (of this page) 21. NO. of Pages
Unclassified Unclassified 90
r. Author(s)
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A05NC
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August 1995 ~
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This report lists 193 reports, articles and other documents recently announced in the NASA STI Database.
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