DAMAGE TOLERANT DESIGN HANDBOOK - DTIC

WL-TR-94-4056 Volumes, Chapter 8, 2 of 2

DAMAGE TOLERANT DESIGN HANDBOOK

D.A. Skinn, J.P. Gallagher, A.P. Berens, P.D. Huber, J. Smith

University of Dayton Research Institute 300 College Park Dr Dayton, OH 45469-0120

May 1994 Final Report for Period June 1991 - May 1994

Approved for public release; distribution unlimited

Materials Directorate Wright Laboratory Air Force Materiel Command Wright Patterson AFB, Ohio 45433-7734

THIS DOCUMENT IS BEST

QUALITY AVAILABLE. THE

COPY FURNISHED TO DTIC

CONTAINED A SIGNIFICANT

NUMBER OF PAGES WHICH DO

NOT REPRODUCE LEGIBLY.

REPORT DOCUMENTATION PAGE form Approved

OMB No. 0704-0188

Public reporting burden for this collection of information is estimated to average 1 hour per response, including the time for reviewing instructions, searching existing data sources, !■ qatherinq and maintaining the data needed, and completing and reviewing the collection of information. Send comments regarding this burden estimate or any other aspect orthtt I: collection of information including suggestions for reducing this burden, to Washington Headquarters Services, Directorate tor Information Operations and Reports, 1215 Jeftetwn \ Davis Highway Suite 1204 Arlington, VA 22202-4302, and to the Office of Management and Budget, Paperwork Reduction Project (0704-0188), Washington, DC 20503. j

1. AGENCY USE ONLY (Leave blank) 2. REPORT a 58»D1¥94 3. REP] mss* ANDD^f§v;iT-o5/i9/94 4. TITLE AND SUBTITLE DAMAGE TOLERANT DESIGN HANDBOOK

VOL 5, CHAPTER 8, 2 OF 2

! 11. SUPPLEMENTARY NOTES

6. AUTHOR(g#A# SKINN, J.P. GALLAGHER, A.P. BERENS, P.D. HUBER, J. SMITH

5. FUNDING NUMBERS

C F33615-91-C-5610 PE 62102 PR 2418 TA 04 WU 91

7. PERFORMING ORGANIZATION NAME(S) AND ADDRESS(ES)

UNIVERSITY OF DAYTON RESEARCH INSTITUTE 300 COLLEGE PARK DAYTON OH 45469-0120

8. PERFORMING ORGANIZATION

9. SPONSORING/MONITORING AGENCY NAME(S) AND ADDRESS(ES) MATERIALS DIRECTORATE WRIGHT LABORATORY AIR FORCE MATERIEL COMMAND WRIGHT PATTERSON AFB OH 45433-7734

10. SPONSORING/MONITORING AGENCY REPORT NUMBER

WL-TR-94-4056

12a. DISTRIBUTION/AVAILABILITY STATEMENT

APPROVED FOR PUBLIC RELEASE; DISTRIBUTION IS UNLIMITED.

12b. DISTRIBUTION CODE

13. ABSTRACT (Maximum 200 words)

This report presents a compilation of mechanical property data that are useful for damage tolerant design and analyses» The data of this handbook combines the old data that were previously presented in MCIC-HB-OIR (Damage Tolerant Design Handbook, December 1983) and more recent data that were collected from various sources. The fracture toughness, crack growth, R-curve, sustained load and threshold data are for alloy and stainless steels, nickel based super alloys, titanium alloys and aluminum alloys.

*

114. SU I^HA^CAL PROPERTIES FRACTURE TOUGHNESS SUBCRITICAL CRACK GROWTH

R-CURVES SUSTAINED LOAD THRESHOLD

17. SECURITY CLASSIFICATION OF REPORT

UNCLASSIFIED

18. SECURITY CLASSIFICATION OF THIS PAGE UNCLASSIFIED

19. SECURITY CLASSIFICATION OF ABSTRACT UNCLASSIFIED

15. NUMBER OF P. £ 16. PRICE CODE

20. LIMITATION OF ABSTKACT

UL

NSN 7540-01-280-5500

ttrcc QUALITY INSPECTED Standard Form 298 (Rev. 2-89) Prescribed by ANSI Std. Z39-18 298-102

GENERAL INSTRUCTIONS FOR COMPLETING SF 298

The Report Documentation Page (RDP) is used in announcing and cataloging reports. It is important that this information be consistent with the rest of the report, particularly the cover and title page. Instructions for filling in each block of the form follow. It is important to stay within the lines to meet optical scanning requirements.

Block 1. Agency Use Only (Leave blank).

Block 2. Report Date. Full publication date including day, month, and year, if available (e.g. 1 Jan 88). Must cite at least the year.

Block 3. Type of Report and Dates Covered. State whether report is interim, final, etc. If applicable, enter inclusive report dates (e.g. 10 Jun87-30Jun88).

Block 4. Title and Subtitle. A title is taken from the part of the report that provides the most meaningful and complete information. When a report is prepared in more than one volume, repeat the primary title, add volume number, and include subtitle for the specific volume. On classified documents enter the title classification in parentheses.

Block 5. Funding Numbers. To include contract and grant numbers; may include program element number(s), project number(s), task number(s), and work unit number(s). Use the following labels:

C - G - PE -

Contract Grant Program Element

PR TA WU

Project Task Work Unit Accession No.

Block 6. Author(s). Name(s) of person(s) responsible for writing the report, performing the research, or credited with the content of the report. If editor or compiler, this should follow the name(s).

Block7. Performing Organization Name(s) and Address(es). Self-explanatory.

Block 8. Performing Organization Report Number. Enter the unique alphanumeric report number(s) assigned by the organization performing the report.

Block 9. Sponsoring/Monitoring Agency Name(s) and Address(es). Self-explanatory.

Block 10. Sponsoring/Monitoring Agency Report Number. (If known)

Block 11. Supplementary Notes. Enter information not included elsewhere such as: Prepared in cooperation with...; Trans, of...; To be published in.... When a report is revised, include a statement whether the new report supersedes or supplements the older report.

Block 12a. Distribution/Availability Statement. Denotes public availability or limitations. Cite any availability to the public. Enter additional limitations or special markings in all capitals (e.g. NOFORN, REL, ITAR).

DOD See DoDD 5230.24, "Distribution Statements on Technical Documents."

DOE - See authorities. NASA- See Handbook NHB 2200.2. NTIS - Leave blank.

Dck 12b Distribution Code.

DOD - Leave blank. DOE - Enter DOE distribution categories

from the Standard Distribution for Unclassified Scientific and Technical Reports.

NASA- Leave blank. NTIS - Leave blank.

Block 13. Abstract. Include a brief (Maximum 200 words) factual summary of the most significant information contained in the report.

Block 14. Subject Terms. Keywords or phrases identifying major subjects in the report.

Block 15. Number of Pages. Enter the total number of pages.

Block 16. Price Code. Enter appropriate price code (NTIS only).

Blocks 17.-19. Security Classifications. Self- explanatory. Enter U.S. Security Classification in accordance with U.S. Security Regulations (i.e., UNCLASSIFIED). If form contains classified information, stamp classification on the top and bottom of the page.

Block 20. Limitation of Abstract. This block must be completed to assign a limitation to the abstract. Enter either UL (unlimited) or SAR (same as report). An entry in this block is necessary if the abstract is to be limited. If blank, the abstract is assumed to be unlimited.

•^

*

Standard Form 298 Back (Rev. 2-89)

*U.S.GPO:1990-0-273-271

Table of Contents

•

m

VOLUME 1

Chapter Page

1 Handbook Organization and Content 1-1

1.0 Overview , 1-1

1.1 Organization 1-2

1.2 Data Ordering and Abbreviations 1-5 1.2.1 Sorting Order 1-5 1.2.2 Abbreviations 1-5

1.3 Material Chapter Summaries 1-5 1.3.1 Available Data Summary 1-12 1.3.2 Plane Strain Fracture Toughness Material

Data Summary 1-12 1.3.3 Plane Stress and Transitional Fracture Material

Data Summary 1-15 1.3.4 Fatigue Crack Growth Rate Material Data

Summary 1-15 1.3.5 Stress Corrosion Cracking Threshold Material

Data Summary 1-19

1.4 Alloy Section Summaries 1-21

1.5 Alloy Fracture Toughness Subsection Formats 1-23 1.5.1 Plane Strain Fracture Toughness Data 1-25 1.5.2 Plane Stress Fracture Toughness Data 1-25 1.5.3 R-Curve Data 1-29

1.6 Subcritical Crack Growth Subsection Formats 1-29 1.6.1 Fatigue Crack Growth Rate Data 1-31 1.6.2 Sustained Load Crack Growth Rate 1-36 1.6.3 Stress Corrosion Cracking Threshold 1-38

2 Methods of Calculation 2-1

2.0 Overview 2-1 2.0.1 Data Review and Acceptance Criteria 2-1 2.0.2 Fracture Mechanics Basis 2-3 2.0.3 Test Specimen Geometries 2-4

m

•■

2.1 Plane-Strain Fracture Toughness (KIc) 2-12

2.2 Critical Plane Stress Fracture Toughness 2-20 2.2.1 Plane Stress and Transitional Fracture

Toughness 2-20 2.2.2 Plane Stress and Transitional Fracture

Toughness Testing 2-23 2.2.3 Critical Stress-Intensity Factor (K,) 2-23

2.3 The Apparent Fracture Toughness 2-26

2.4 R-Curve (KR Versus Aaeff) 2-26

2.5 Fatigue Crack Growth Rate 2-30 2.5.1 Fatigue Crack Growth Behavior 2-30 2.5.2 Data Acceptance Criteria 2-32 2.5.3 Data Reduction Procedures 2-33 2.5.4 Data Reporting Procedures 2-35

2.6 Sustained-Load Crack Growth Rates 2-38 2.6.1 Sustained-Load Crack Growth Behavior 2-38 2.6.2 Data Acceptance Criteria 2-40 2.6.3 Data Reduction Procedures 2-40 2.6.4 Data Reporting Procedures 2-40

2.7 Threshold Stress Intensity (KIscc) 2-41 2.7.1 The Threshold 2-41 2.7.2 Conditions for Validity of Data 2-43

Alloy Steel Sections 3-1

3.0 Alloy Steel Material Summaries 3-3 3.0.1 Available Data Summary 3-3 3.0.2 KIc Summary 3-20 3.0.3 K, Summary (Without Buckling Constraints) 3-27 3.0.4 FCGR at Defined AK Levels 3-28 3.0.5 KIscc Summary 3-33

3.1 lONi Steel 3-39 3.2 12-9-2(MAR) 3-48 3.3 12Ni-5Cr-3Mo 3-51 3.4 18Ni(180)(MAR) 3-52 3.5 18Ni(200)(MAR) 3-53 3.6 18Ni(250) 3-56 3.7 18Ni(250)(MAR) 3-59 3.8 18Ni(280)(MAR) 3-67 4fck 3.9 18Ni(300) 3-68 ^^r

3.10 18Ni(300)(MAR) 3-70

iv

3.11 18Ni(350) 3-88 3.12 18Ni(350)(MAR) 3-89 3.13 300M 3-90 3.14 300M(AM) 3-134 3.15 300M(VAR) 3-136 3.16 300M(VM) 3-138 3.17 4140 3-140 3.18 4330V 3-143 3.19 4330V(MOD) 3-144 3.20 4340 3-149 3.21 4340(AM) 3-194 3.22 4340(DH) 3-196 3.23 4340(EFM) 3-198 3.24 4340(MOD) 3-199 3.25 4340(VAR) 3-200 3.26 4340V 3-202 3.27 A286 3-204 3.28 AF1410 3-212 3.29 AF1410(VIM-VAE) 3-222 3.30 D6AC 3-233 3.31 Hll 3-300 3.32 HP9-4-.20 3-308 3.33 HP9-4-.20(CEVM) 3-348 3.34 HP9-4-.25(VAE) 3-354 3.35 HP9-4-.30 3-356 3.36 HP9-4-.45 3-423 3.37 HY-150 3-424 3.38 HY-180 , 3-425 3.39 HY-80 3-428 3.40 HY-TUF 3-431 3.41 Alloy Steel References 3-433

Stainless Steel Sections 4-1

4.0 Stainless Steel Material Summaries 4-3 4.0.1 Available Data Summary 4-3 4.0.2 KIc Summary 4-9 4.0.4 FCGR at Defined AK Levels 4-11 4.0.5 KIscc Summary 4-15

4.1 15-5PH 4-17 4.2 15-5PH(AM) 4-47 4.3 15-5PH(VM) 4-48 4.4 17-4PH 4-49 4.5 17-7PH 4-61 4.6 21-6-9 NI40 4-69 4.7 304 4-72 4.8 316 4-86

4.9 347 4-92 4.10 AFC 260 4-97 4.11 AFC 77 4-98 4.12 AFC 77(VAE) 4-103 4.13 AM 355 4-106 4.14 AM 362 4-107 4.15 AM 364 4-108 4.16 CUSTOM 455 4-109 4.17 PH13-8MO 4-119 4.18 PH14-8MO 4-193 4.19 PH15-7Mo 4-194 4.20 Stainless Steel References 4-197

VOLUME 2

5 Nickel Based Super Alloys Sections 5-1

5.0 Nickel Based Super Alloys Material Summaries 5-3 5.0.1 Available Data Summary 5-3 5.0.2 KIc Summary 5-6 5.0.3 K,. Summary (Buckling not Constrained) 5-7 5.0.4 FCGR at Defined AK Levels 5-8 5.0.5 KIscc Summary 5-12

5.1 ASTROLOY 901 5-13 5.2 ASTROLOY P/M-H 5-24 5.3 ASTROLOY P/M-W 5-26 5.4 IN100 5-28 5.5 IN100 P/M-G 5-52 5.6 INCOLOY 901 5-54 5.7 INCONEL 600 5-56 5.8 INCONEL 625 5-63 5.9 INCONEL 718 5-68 5.10 NASA IIB-7 P/M 5-162 5.11 P/M RENE 95 5-163 5.12 RENE 95 (H&F) 5-170 5.13 WASPALOY 5-171 5.14 Nickel Based Super Alloys Reference 5-198

6 Titanium Alloys Sections 6-1

6.0 Titanium Alloys Material Summaries 6-3 6.0.1 Available Data 6-3 6.0.2 KIc Summary 6-15

6.0.3.1 K,. Summary (Buckling not Constrained) .... 6-18 6.0.3.2 K,. Summary (Buckling Constrained) 6-19

6.0.4 FCGR at Defined AK Levels 6-20 6.0.5 KIscc Summary 6-35

vi

6.1 BETA 6-38 6.2 BETA C 6-39 6.3 BETA III 6-47 6.4 BETA Ti 6-59 6.5 CORONA 5 6-61 6.6 IMI-834 6-62 6.7 Ti-* 6-68 6.8 Ti-10-2-3 6-69 6.9 Ti-4Al-3Mo-lV 6-72 6.10 Ti-5-2.5 ELI 6-73 6.11 Ti-5Al-2.5Sn 6-102 6.12 Ti-6-2-2-2-2 6-126 6.13 Ti-6-2-4-2 6-134 6.14 Ti-6-2-4-2 ELI 6-141 6.15 Ti-6-2-4-6 6-154 6.16 Ti-6A1-4V 6-169 6.17 Ti-6A1-4V ELI 6-433 6.18 Ti-6Al-6V-2Sn 6-473 6.19 Ti-6Al-6V-2.5Sn 6-515 6.20 Ti-6A12Sn4Zr6Mo 6-516 6.21 Ti-8Al-lMo-lV 6-518 6.22 Ti-Mo8V2Fe3Al 6-567 6.23 Ti-5A12.5Sn ELI 6-569 6.24 Ti-6A16V2Sn ELI 6-571 6.25 Titanium Alloys References 6-573

VOLUME 3

7 Aluminum 2000/6000 Series Alloys Sections 7-1

7.0 Aluminum 2000/6000 Series Material Summaries 7-3 7.0.1 Available Data 7-3 7.0.2 KIc Summary 7-8

7.0.3.1 K, Summary (Buckling not Constrained) .... 7-10 7.0.3.2 K,. Summary (Buckling Constrained) 7-12


7.1 2014 7-27 7.2 2020 7-65 7.3 2020 (ALCLAD) 7-78 7.4 2021 7-79 7.5 2024 7-82 7.6 2024 (ALCLAD) 7-378 7.7 2048 7-397 7.8 2091 7-416 7.9 2124 7-451

Vll

7.10 2214 7-556 7.11 2219 7-561 7.12 2324 7-654 7.13 2419 7-657 7.14 2618 7-668 7.15 6061 7-674 7.16 A201 7-682 7.17 A357 7-686 7.18 AL905XL 7-691 7.19 IN905XL 7-704 7.20 Aluminum 2000/6000 Series References 7-719

VOLUME 4

8 Aluminum 7000/8000 Series Alloys Sections 8-1

8.0 Aluminum 7000/8000 Series Material Summaries 8-3 8.0.1 Available Data 8-3 8.0.2 Kfc Summary 8-12

8.0.3.1 K,. Summary (Buckling not Constrained) .... 8-16 8.0.3.2 K,. Summary (Buckling Constrained) 8-19


8.1 7001 8-45 8.2 7005 8-53 8.3 7007 8-62 8.4 7010 , . 8-63 8.5 7039 8-80 8.6 7049 8-81 8.7 7050 8-136 8.8 7050 (ALCLAD) 8-435 8.9 7075 8-452 8.10 7075 (ALCLAD) 8-745

VOLUME 5

8.11 7079 8-766 8.12 7079 (ALCLAD) 8-833 8.13 7080 8-836 8.14 7149 8-837 8.15 7150 8-849 8.16 7175 8-877 8.17 7178 8-969 8.18 7178 (ALCLAD) 8-1019 8.19 7475 8-1020 8.20 7475 (ALCLAD) 8-1292

Vlll

8.21 8009 8-1323 8.22 8090 8-1328 8.23 X7090 8-1344 8.24 X7091 8-1348 8.25 Aluminum 7000/8000 Series References 8-1354

IX

Foreword

This report summarizes the results of a damage tolerant, material property data

collection and reporting program conducted under USAF Contract F33615-91-C-5610.

The work was sponsored by the Materials Directorate of Wright Laboratory with Mr.

Jack Coate of the Systems Support Division serving as the project monitor. The

technical effort was conducted between June 1991 and January 1994. The work was

performed by the University of Dayton Research Institute under the general

supervision of Dr. Joseph P. Gallagher with Dr. Alan P. Berens serving as Principal

Investigator.

This final report comprises eight chapters which are presented in five volumes

as follows:

VOLUME CHAPTER DESCRIPTION

1 1 Handbook organization and content

2 Methods of calculation

3 Alloy Steels

4 Stainless Steels

2 5 Nickel Based Super Alloys

6 Titanium Alloys

Aluminum 2000/6000 Series Alloys

4&5 8 Aluminum 7000/8000 Series Alloys

A detailed listing of the materials represented in the Handbook is contained in

the preceding Table of Contents. In the body of the Handbook, the pages are

numbered within chapters and the relevant portion of the table of contents is

repeated at the beginning of each chapter.

XI

CHAPTER 8 (CONTINUED) ALUMINUM 7000/8000 SERIES ALLOYS SECTIONS

VOLUME 4

8.0 8.0.1 8.0.2 8.0.3.1 8.0.3.2 8.0.4 8.0.5

8.1 8.2 8.3 8.4 8.5 8.6 8.7 8.8 8.9

VOLUME 5

8.10 8.11 8.12 8.13 8.14 8.15 8.16 8.17 8.18 8.19 8.20 8.21 8.22 8.23 8.24 8.25

Aluminum 7000/8000 Series Material Summaries .... 8-3 Available Data • • 8-3 KIc Summary 8-12 K, Summary (Buckling not Constrained) 8-16 K,. Summary (Buckling Constrained) 8-19 FCGR at Defined AK Levels 8-20 Kfce,. Summary 8-41 7001 8-45 7005 8-53 7007 8-62 7010 8-63 7039 8-80 7049 8-81 7050 8-136 7050 (ALCLAD) 8-435 7075 8-452

7075 (ALCLAD) 8-745 7079 8-766 7079 (ALCLAD) 8-833 7080 8-836 7149 8-837 7150 8-849 7175 8-877 7178 8-969 7178 (ALCLAD) 8-1019 7475 8-1020 7475 (ALCLAD) 8-1292 8009 8-1323 8090 8-1328 X7090 8-1344 X7091 8-1348 Aluminum 7000/8000 Series References 8-1354

7075 (ALCLÄD) \

HU

H

I

S O

•IM

S a

•c o a S •*« a> a

'S > w Q

"8 >

e

e .8«

o ©

8-745

7075{ALGLAD)

CM O

N

QO

1

O

|

o

;*«> 8

I

iftÜ

Ü

II

SWS d t- d

o d

o d

m Ed x 03

8-746

7075(ALCLAD)

01 o

co

a

M

o t»

§

as

3

tf

is

^4

81-3

8 EU OB

sj«

SE s H Q

SOB

l-S*

111

17 5 a

(X

Bs

o »I

I 0 u

E>

EH « E-

S d

8-747

■ 7075 (ALCLAD)

e GO

M

I

M

is

rfi

^4

81-» !*£*

Z 2 S3 W a

U E- Ü Ü Ü Ü U

E- U

E- Ü

'Bo H PS

B8

i*

9*i

a o

B. O QQ

Si*

17

E" E^

E-

z o

o u

8-748

! 7075 (ALCLAD)

as

3

M

is

/I

s

M

O

94 O

• GO

H

9

z S g

go •sea B8

ii*

in

ale

§2 «3 s

i

Z 0

5|

S3

H J

8-749

7075 (ALCLAD)

94 • O pH

CO

W

OS

e

1

M

2>

^2

«? &

* 3

00

h

s si

8 6

Z g M Q

U U u E- O

5 a

§ 2 ea

£*

9t»9

B =

8 n oo s u

J E-

o

I

O U

8-750

: 7075 (ALCLAD) I

o CO

« Ifl to to to to to to 1 S * * CO CO CO CO s * CO * * s * i$ Ä Ig ä

o © o o t» t- e» c- t- fr- c- c- c- t- t- t-

B 8 » s s s 8 s s s s s » 8 s 8 s s „ 9 5 en cn cn cn cn cn cn cn cn cn cn cn cn en cn cn cn cn cn a

3s f-C CN

fee

rf rf5 ö

CO d

IS * CO CO ^« 10 o

rf? °? GO o c- CD to v v © CO

to CN CN CN 10 <0 t*

s CO to 10 to to CO t- C" C*

Sis CN CO

0. P.

go

4 lO eo to

te

W * ^

*—»I

J^ lO CO

eo « CO CN

eo CN • CO

CO cn to

• eo co

CO lO

C* to CO eo

CN s *g IP:

©■ CO

CN to

CO 40

eo IQ

CO N"

to CN to IO CO CO

to IO CO CO

eo CO

© CO

CO to to s 3

Ä g g o o o

ää* t> CO CO to to cn CO ■c CN CO eo V eo CN 3 CO CN "^ 60 02

;Eo co CO ■V IS V to CN to CO CN CO V "T

•BS

2

ON

SET

(K

.1) o © © 53 o 5 CD to to CN CN to to

<i :-:-:U CO cn cn © CN to 8 SQ- CO

IS r- o ft

. b.

© © o © 0 © © o o 9

»3

& : Si : : % : $ : to ■v © % ifi $ 8 ÜÜ 8

^ b O

*"* O © © © CO CN to CN ^* CN CN N

o: S': äT

SSO:. SS3:'

IS

© © © o o © o o © © O 2 B 3 cn

c- cn CO

LO cn t-

cn CO

cn to cn CO

to B SS S % fc 3 t: S

| " •" © © CO o o o CO o CO " «tf* CN o ~ © •" CN

z sea os at cn en cn cn cn cn cn cn cn O) cn cn cn en cn o> en

P s S s £ ©- s s £ s £ £ £ g & s s £ £ s 3

8 E* © © o O o © © o © © © O © © o o d o ©

£ ~ o o p 0 © © © © 0 p 0 o o 8 S R 8 s 8 a. g i £ * * Cn cn tt K K K cn cn cn * CO CO «? «! CO CO «! CO * ~ to to to lO 10 10 to to to to to to - - - - ~ - -

9gi giis eo « CO eo « 03 eo «0 05

t» c- t- c» t* c- t~ t> e» t» e* c» c»

° - E- H CU O J; Jl to

P- E-' f^ gg^ « K

1 s? s s g s s S s s s s g s s s s g s s s S"1- o o o o o o o o o © o o o o o o o o ©

O Si 0. § 1 S

o CO cn

g s

8-751

7075 {AI£LAD) j

tf

a

Q

a w

IS

S

5> 5 w go

A

o Ü

o CO

W

S3

Ü 51«

is« 17»

■£*

5 eri

a» s 0

§ to

9g5 BBS

a. O X

E- ■ E«

S§£ OS

Ö Q O Bj ft. •E o

5| Si

8-752

7075 (ALCLAD) j

O Ü

CM • O 1H

CO

W iJ

« 8 to to to IO to IO to IO V V s CD CO CO © m

s g O © o © o © o © $ c- E* c»- c- l> e»

£ s » 8 s s « s « 8 s s s s 8 j . * * < © © © © © © © © © © © © © © © ©

Q

111 2> 5 B

T3

rf

go U

*i H3

c © i

15 V CO © ro ^5 to

to to CO

TO ©

TO CM «* V CO CM

© 1 i i

S c^ IO t* © c- © c- © c* ©

5> 5 W !P

©

g» O U

.ri c o

w ^

rf »I-2 o *-• CN © © © © t- ©

■>. TO C^ © c^ « CO

TO CM'

© to

©. « to u> S

^! v

§;& © © © w © © © © V IO v

**^ X ~ I:5:

o © o o o A g

is«? © o CM CM © © c» CO «i ©

™ 02 IO CO © © to © t- CM © '■■■«

Si«;

3 a 5 :¥:«:■

"8' TO © © CM ■0" CM CM CM

E3» 8 © CO

o o ©

© CM

o to

© ©

© to

© © R O

© 8 << §&u U 00 V e- to m

10 r- g i

w CM © CM CM CM CM O: O

iJ«::

FIN

AL

(I

n.)

2«, © © p o © o © © O © o © © CM CM g g © *■ CN s 3 a s 8 s © O

V

o :;so':. IS::

t I t

| M. ^* IO to CN *"* CN CM CM © © CO ©

IN IT

(I

n.)

2a. o

CO © CO

© i © 8

© ©

© 8

O 3

o 3

© ©

o © c-

© ©

© IO

© °0. § § §

CM n o CO « TO « n

^ ' :S>: z

TH

ICK

(I

n.)

B © en © © © © © © © © ©

D &Ä: ©- is is s S s & & S s s & B & S S z *

o o o © © o O O o o o o © o o o ©

£~ s 8 o o s s © s s s R s S 8 ^ C- t- P- C^ t> t- r- © CD ©

w — IP U K H e H c o Jl g .Ä 02 U

gfic 71

fr-" eg^ K

6 p

I? s s s s s s § s s s s s S s s s s g" o. o o © o o o © © o o © o o

US- o o o

Q

a. o :?:?l 8

CO

§1 Si

II T5

S c U

e

8-753

! 7075 (ALCLAD) i

oo

9

as ^ £ CO

t> CO 00

CO eo eo CO eo s % eo CO eo a s a SS S3 S3 a S3

g 00 00 CO CO CO CO CO to CO eo CO

Q

s en

8 Ol

s s ©

s O) en s

en s ©

s Ol

s Ol

s Ol

s 01 Ol

s Ol

58 Ol

S 01

S Ol i 1

3> er

rf 4 i : c tr tc

ß « * M CO eo , • _ © •

1 i !

en oi to

E-' to

c- CO

to

CN 00

CO

to" to

CN to to

to

to CN to to

to IO

s g

a

11 co t

^ CD

P 10

j

>?

M *

:|Q:; 4 to CN

CO CO tO

Ö to

Iß US

* CO CO

CO IO

•

IO

to 9.

to

i CO Ol

CO CO

to CO

CN to © CD

to CN

s to' to

« CO eo CO

• © to

o

s CO CO

s •

to

^^ Si j| t o o ©

OS 0 o © © o ©

CO © CO

© eo

O © 00

o © CN

o Ol

© CO s ©

ol »5

CO eo o CN

CN CN

to to

to to =

Ol ~ ~ - to eo

00 CN CN to to CO CN ■w

B? . Z o CO

© CO

© © © o o c-

© O)

o CO

O O Ol s ©

<0. o ci s

3 81° s I ' ' CO to

IN to

to £ to o 01 eo IO t> CN

CO to eo GO

10 0 a»; »

r»

FIN

AL

(I

n.)

2a, s

y . , . ; © CN

o s

©

s © ©

s © ©

s ©

8 ©

8 o CO

o 8

o s

o 8

o CN i

1 :-4- *::©■' ate;

O

o o to V to to to 04 V O © CN V ©

mrr

(I

n.)

2a. § ©

s ©

s o 8

© o GO

o s

© to

© o CO

©

S ©

s o s

o 8

©

s © Ol

© ©

s

S K;:0 ' CO co CO o o to CO to to to *" ~ CO © © ** CO o

z K _ 2 ^««

"0" *8" v x

to CN s

o 5

©

s ©

s ©

s o 5

o s

o S

©

s ©

s O

s o s

o 3

o s

o s

Ü H

E8 P © o o o © © o © o © o © o © o Ö © o

§ "B £ o o

s s o s g ©

s ©

8 ©

8 ©

8 o 8

o 8

©

8 ©

8 ©

8 I o 8 § § i

09 *~ c- t- c- fr- 0) o> Ol Ol Ol Ol Ol 0> 01 Ol Ol 01 © en

YIE

LD

8T

R

CM

) © o O o © o © a © © © Q p q ©

s. CD 0» to

oo to

eo CO

CO to

CO CO

CO to

CO to

CO CO

eo to

CO to

CO CD

CO to CD © CD Ö

EL 0 Jl 01

fei£ fi H H g|£ K K B

6 a

s. « s s CN s s s s s s s S s S s S s s s gc o o o © © o © o o © o © o © o o © o o

o a,

O b

as CO CG

31 X CO

§1

II g g g

8-754

17075 (ALCLAD) \

rf

w

£

o ü

6 F-l

CO

W

3

8s oS

S3

te Ed

5> fee

2>

M

^5 I* Sä« SS«

h *> • 5 3 £ 5 =**

p "

£*

a „, ~.

9 O § ft,

Ed BS

ft 6 ~ P"g£

o

sg

« CO m V o CO v o • o> • * • CO

* o to

t- (N en IO « 00 » t* to V cr> OJ en CO to 3 c- to to to o to to

■n

CO ü

8-755

707Z(ÄWh&n) 1

H z o o CM CM o ao H

9

CD CD

to 00

r» to CD

S3 to CO to to

eo CM CD

eo CM to

e*3 CM to

co CN to

eo CM CD

eo CM ©

to CM ©

3 eo CM ©

s ©

3 ©

SS ©

1 a S © © ©

s ©

s ©

s 01

s Ol

8 en

s Ol

S Ol o> ©

s ©

s ©

8 © i

is © eo © eo

 ^* 00

© CO

o 00 s CO 10 ^ CM

10 © © CO

© ©

t» eo Q

© © CM

© in CO

CO 10

to 03 10

CM 10 s CO

10 10 © 10

eo 10

00 10 10

1» © to t

0,

ö

»>! 00 cd ©

«0 10

1

M *

rf

<••».

0 © eo

t» o> , , , . . ■ . . ; I : ■

/I 1 © to

CO to

oi c*

au 8 © © © o US

o © CO s o § ©

eo o eo

O © eo § o

CM 5 s

88

1 a

t- to OJ t» CM

© CM

to CM eo

© CM

10 ~ 8 CM iK

i 1 ! i 1 i 1 i i i ; ; \ i I

10 0

WM • o

©Sä

3^ . g-SA

• •so:-

Ü

o s cd

o s en

© CM so cd

©

8 cd

©

oi

o eo 10 ö

© o o

to'

©

s CM

O CM

CM

O

CM

©

cd

eo 10 ©

o

$ eo" C"^

O

8 o o CM

o 5

1 o s s

o s s i : ' 3

! i i i 5 •

z BOB

©

s o s

© © ©

3 ©

3 o 5

©

3 ©

5 ©

3 ©

S O

3 ©

3 o

s O

3 o 3 s

o Kl

ss ■sO< o o o o © o o © o o o © o o o

s g o s s © s © © ©

© ©

o o © o o o © o § § g g § 0. Oü |i* o o o o ©

ID 10 10 io © es

d CM

© CM

o CM

© CM

© CM

© CM

o CM

© CM

© CM CM CM CM CM

3gi gi* o

CO © O © © O o © o © o o O. © ©.

© .C-

00 to

CO to

CO to

co to

eo to to to

CO to

eo ©

eo ©

eo ©

eo ©

eo © © £ ©

B ES

§3° &> J

i^£ H H' t^

BB«- K K C

6 O o

8? s £ S s s s s s s s 3 s s 3 s s S S

SB o © o o © o © © o © © o © © © o o

es ft. 0 0}

8 CG

«5 sp £

H H

8-756

7075 (ALCLAD)

O ü tN

• O FH

CO

a

« S3 a eo CO eo 3 eo CO 3 S3 8 CO

e- S3 CD

co 8 CD

B CD CD CO CO s CD CD CD CD CD CO CD CD CD CO 00 00 CO 00 CO CO

s 8 S « 8 » w S 8 ffi 8 « » s s s a S . i 1 •< © OS 0» O) en 01 en O) © © 01 en en en en en Q

is co 1 CN CO 0

t? *i 00

to

0

s CO ©

IS ©

& © •V t> CN V 0 CO CO ■V © CO CO e^ 00

10 to CD to CD CD CD CD to CO to en CO CD t»

5> go

OS CO

CO 0'

CO Ö

a a. JS CD to

en

CO

en CO

IO w *■*

tf J- CN to to CD CO © V CO S3 f* ^ en CO ,M 10 F» en en 0 0 CO to to CN en •V CO CO en

« "S :-::Q: CD Oi s

J^S

£ 5*M-

:i§: ID ID ID to to to CD to to to CO 0 00 to e«- » to

Is«? O O O 0 0 0 O 0 0 0 0 0 © to 0 0 © g to CO 0 CO en CO CO

0 5

u ::ss

II eo

to © 00 CM CO CN

to 0 V CO CO to 0 CO CN CN CO ©

fc~ 0 O O 0 0 0 O 0 S3 Si* CO en

i :¥:S t> to O CN CM en to CO 0 CD • ' ' ' £ ■ 0 :;:sO.

■D'

0

li FIN

AL

(i

n.)

2a, || 0 O

IO O O

s CD

O to

CD

0 0

ei

O 0 CD 0

CO

0 10 00 0

i t = ; I i O

8 en

g CO

s 00"

CN

S ""ft.. O

JSU'"

0

2 O 0

s O O

O 0 s

0 s

to 0 Ö

0

s 0 Ö

0 0 10

0 ©.

© 0 CN

© s

© 0 CN

§ © 0 to"

g to

g 10

g to

g !§:: a

^ ^* *M f-l ■" rm *-a •— "* ft ** z

TH

ICK

(I

n.)

B © en © O 0 0 0 w*

^ P a £ s S S ä s 8 8 8 s s 3 3 3 s 8 8 s ÜJ

5j 0 w 0.

0 0 0 O O 0 0 © O O 0 0 0 © 0 0 O 0 © O

a "■ * 1 i 1 | O

O O

§ g 0

S O O O

O O O

0 0 0

g ©

©

8 © g g

0 § § 1 § |

0 0 0 O O * CN CM CN CN CN CN CN CO CO CO CO CO CO TO CO CO CO

YIE

LD

B

TR

(K

sl)

0 0 O O O O O O © O •-" «— CO l> en *e« 00 00 © © eo co CO eo CO CO eo

:ii CD CD CO CO CO CO CD CD t> t- CD t* c- C» t" t> t> c-

Ö - H E- 6- H a. O to A J J Jl

&§£ fc^ E-; E-: t^ Pe*- 11

a c « oi

s* „

6 D

a B 8 s s S S 8 8 s 8 S s s 3 s s 3 8 8 s s E- O 0 0 0 0 O O 0 O O 0 0 © 0 © 0 O © 0 0

p P

g ■:W:::-: $ 8 % % 0 h

-c J= X JZ en CO

§| Sp g 1 £- H H t"

ii

8-757

7075CALCIAP) |

rf

O Ü

O

GO

H

S

2> feo

5> feo

J

©

fis« fa

- PS

E=>

3»>

3gT" sis

fid B a. o CO

|6B

a. o

§1

WS

t- c* t-

8-758

! 7075 (ALCLAD)

rf

w

£

O

©

CO

H

9

«So

hag

H Sä

E

2

5>

s

5> go

jf

Hi

i*

ill

i6c

a §

o

II

J

si

j fi

J fi

8-759

o ü

o

H

IS

Q

2> fed

rfj

s

go

J

B o es

1-2*

0 D

E8

o tt.

J J fi

J £

8-760

7075 (ALCLAD) \

Q

O

)ö

■ o 00*

a 3

as S

03 co eo CO CO CO CO CO eo CO CO CO CO CO CO eo CO

CM eg CN CM CM CM CM CM CM CM CM CM CM CM

g CO CO CO to CO CO

00 CO 00 00 00 00 00 00 00 00 CO CO CO CO CO

1 n r- C* r- f- t> r- < OJ O) en en en en en en cn cn en en en en en Q

§& to la

go ©

rf 4 i j tn

eo

CO

\£ CM •v o 8? «H CO c* CN CN v to CM en ■v

S CD to t> c- CO c- to C- c^ \o t^ 10 to

2> CO cn ^ c o CM o

B. a •ri

eo q tN cn IO w

^

rf j- ,M r- CM c- cn © cn IO ^- to V f-T U3 ^p V CM cn to CM v

is « ':0 eo co CO 00 c- CO cn © CD IO 10 CO w to en CO

^^, S

3iJ o o o o CM CN o CO en CM CO cn CM CO C* CO CO C* CO to

II e- 00 00 o O) c» r- IO © cn cn o CM o CN CM

OS

CO CM CM CO CM CO CO eo

6« . .SS* j i i { i I , i ; ; j j : G CD

CO

©

GO*

10 o : a

©

FIN

AL

(i

n.) :wy; O) ^ CO CN ^ y-. ^- o

tfg

•WO

s 00 3 s s> 8 en to s 8 2. 8 s s 3 o

id s "0"

Sea o © o O t*

2 a & s Ö & & en a a a a » 8 8 r- 8 s

g 03

z s £ (S OJ 3

d s d 3 s

© s d d

CM

d CM

©

CO

©

so

©

CO

d CD

©

CD

o* to

©

CD

d eo

d s d d

< u u c *•-■ © © o © © © o © © O © o o © Q s g ft! 1-2* © © a a s S a g a a s o a s s *? o «, | g~ CO eo co CO CO CO CO CO CO co CO cs CO PS CO

9g? o © o w« ^- „

CO CO CO CM CM CO CM CD CD ^-

aig en OS en en en en o en en cn en en CO CO CD c- c- c- CD CD CD CO CD CD CD

«J J J J

fe° H H £ E^

feic gg^ 00 CO CO CD

6 Sir ;:i|;;;||: s § s « CN CM eo co eo CD CO to CO to CD S s E- o o o o © o o o © O o o o O o o o

Q Q OS

K K 8 £ S £ J: X .e M

03 CO

§1 fcp P P p P 9 *i

8-761

R 7075 (ALCLAD)

Condition/Ht: T6 Form: 0.09 in. Sheet Specimen Type: CCP (max load specified) Orientation: T-L Frequency: 13.3 Hz Environment: LAB AIR; RT

AK (MPaVin) 4 10 40 100

(1 of 1)

10

10

.32 o

o 10 \ c _

Z 10

10

10 -7

10 -8

— Stress Ratio: 0.0 —

— —

— —

"~" —

— * —

"""* —

II 1 1 1 , 1,1,1, —

— 10

io"2« o

-3 | 10 E

- _*T5 10

— 10

o ~0

10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10_*in/cycle) 8.86 (min) 9.

10. 13. 16. 20. 25. 30. 30.12 (max)

4.61 4.92 7.23

14.5 27.1 73.6

214. 1152. 1224.

RMS % Error

7.70

Life Prediction Ratio Summary

i 1 1 1 1

.5 .8 1.25 2. 0.

Yield Strength: 67.7 ksi Ult. Strength: 77.8 ksi Specimen Thk: 0.089 in. Specimen Width: 4 in. Ref: 86213

AK (MPaVin) 1 4 10 40 100

b I ' I 'I'l'l—I ' I M'l'l

10

10

o OÎO"4

c _

■Z. 10

\ o "° -el-

10

10

10 i linn ' iiini

— 10

10

— îo"2£

Ü

- 10_J E

-Jio >

-5 — 10

10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10-6in/cycle)

RMS % Error


i 1 1—-—i—

0. .5 .8 1.25

Figure 8.10.3.1.1 8-762

Condition/Ht: T6 Form: Sheet Specimen Type: CCP (max stress specified) Orientation: T—L Frequency: 30 Hz Environment: LAB AIR; RT

7075 (ALCLAD) R

Yield Strength: 47.2 ksi Ult. Strength: 68.2 ksi Specimen Thk: 0.09 in. Specimen Width: 14 in. Ref: EFM01

AK (MPaVin) 1 4 10 40 100

(1 of 2)

10

-3 10

o o 10

-5 -Z. 10

-o _, - 10

10

10 .-8

_ I i I i|i|i| | ' | 'ITI -1


— —

: —

— —

: / —

: J —

- i ,i.i.i, i , I,I,I, —

— 10

io"2^ o

T3

- 10^\ o

— 10

— 10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) 2.83 (min) 3. 3.5 4. 5. 6. 6.96 (max)

0.107 0.133 0.190 0.230 0.443 1.91 3.90

RMS x Error

7.34


i 1 1 1 1—

.5 .8 1.25 2. 0.

— Stress Ratio: 0.2

10

10

O

oÔ"4

■a 10

10

10

10

-7

AK (MPaVin) 4 10 40 100 TTTl 1 ' I 'I'l'l

(2 of 2)

I i Mil, I I I III!

— 10

10

o \

-3 | 10 E

10

10

10

o ■a

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) 2.49 (min) 2.5 3. 3.5 4. 5. 6. 6.09 (max)

0.0807 0.0818 0.143 0.204 0.267 0.717 2.50 2.54

RMS % Error

6.87


i 1 1 1 1—

0. .5 .8 1.25 2.

Figure 8.10.3.1.2

8-763

R 7075 (ALCLAD)

Condition/Ht: T6 Form: 0.09 in. Sheet Specimen Type: CCP (max load specified) Orientation: T—L Frequency: 13.3 Hz Environment: LAB AIR; RT


AK (MPaVin) 4 10 40 100

i I i 111'|

(1 of 1)

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10'6in/cycle) 6.36 (min) 7. 8. 9.

10. 13. 16. 20. 21.86 (max)

4.42 4.71 6.25 9.03

13.1 33.4 86.1

285. 656.

RMS % Error

8.01


.5 .8 1.25 2.

10

10

_Q3 _

O _

o^10-4

c _

10

"o _K — 10

10

10 -8

AK (MPaVin) 4 10 40 100

TTTl 1 ' I Tl'l

■ i 11in ■ l.l.l-

— 10

10

<D

10" 2o

o \

10" =1 —' z ("° m •\ u

■o

10

10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle)

RMS % Error


—i 1 1—

.5 .8 1.25 —i-

2.

Figure 8.10.3.1.3 8-764

Condition/Ht: T6 Form: Sheet Specimen Type: CCP (max stress specified) Orientation: T-L Frequency: 30 Hz Environment: LAB AIR; RT

7075 (ALCLAD) R

Yield Strength: 47.2 ksi Ult. Strength: 68.2 ksi Specimen Thk: 0.09 in. Specimen Width: 14 in. Ref: EFM01

AK (MPaVin) 4 10 40 100

(1 of 2)

-2 10

10

.2 <— o o 10

■Z. 10

■o 10

10

10


— —

— —

— —

— —

/

—

= f ~ I , I,I,I, I I t i

—

— 10

io"2u

10 E

10

— 10

— 10

o •o

AK (MPaVin) 4 10 40 100

10

10

o 6-10-4

\ c _

■z. 10

4 10 40 100 AK (KsiVin)

10

10

10

- I I I llTl I , 11,.,.! _l


— —

— —

— —

— —

jf —

" I , I,I,I, I , I,I,I, —

(2 of 2)

— 10

— 10

o \

-*! 10 E

Jio >

10

— 10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (10"6 in/cycle) 1.82 (min) 2. 2.5 3. 3.40 (max)

0.0689 0.105 0.173 0.254 0.330

1.56 (min) 1.6 2. 2.40 (max)

0.0672 0.0767 0.138 0.190

RMS S Error

5.95


0. .5 .8 1.25 2.

RMS s Error

5.13

Life Prediction Ratio Summary □

.5 .8 1.25 2.

Figure 8.10.3.1.4

8-765

7079

s

w

c ' o •

CM

^ "Ü > «a 9 . CM t t-

CO OD Q cc ©

CO r-{

B

• 00 1-i ' 00

O e : t- CM o

ra 5

b9 •a •c •J •a >

OS Q t •>* CM

4 o H ■ PJ co CM

tf s a £ CO CO *-t

1« ■ co IN CM

co" CM

CO

C 00 OS CO

t- CO f-1

H 'S > CJ OS cc CM

HH CM •—I T-t CM

c 03 2

CO CO 00 CO CO CM

co CM CM

•w a o S •** es © b H -tj T-l .-1 CM es 50 U5 to lO

0) H co H

00 H

co

0 • pM -w • iH

•0 Si 0 o

-u

V be c

o o « '*> a, ,o

s* fa fa fa

8-766

7079

CM O

u

CO

■ ■31

s

I I Si

Sä»*

10

«

«

Am

SWS

00

3 as

■

O

3: ■ A

5 a o

o s

8-767

7079 El

IM o I

u

■s

1111 "R ■ o

1

I ::0

W «

oo

3 rSä o

o

H i

O

|

K S O

H W X d

E- H H X 02

5 et

8

g g g

I 8-768

CM O

4

X

:-:-Mr?vXv:

f SI

7079

I£!

'5-

w >'*■ ;>»**

03

co

as

3

8-769

7079 s CM O

!

4 X

»

H

0«

■

m 1 <o CO

^1

CO

9 3

1ÜI

s o

i^.: **

■

O

3

•&2j5$:*vfi*::$ w 1 3 g

8-770

7079

CM O

co

1

8-771

7079

CD ei

GO

fa

<

O H

i fa

GO

I

o fa

s

■

■

III

IP

ü!

«

mm.

I O

£

8-772

7079

CM O

ffl

m

I 10

SOS is*

w

9

—

IöSM o d

i I

I

• •

O

5

3 s O

i o

£

g

8-773

7079

o

CO

CO

a 1

%

o

I Ü

:■:©.:,

III

H

I

• •

O

|

I ■

«

;

5»

o n 2 2 C5 ü K K O O b. i*

s

8-774

7079

C4H o ■

00

S

%

u

M

CD • •

o 3 &Ü

K tf O

ilsi

lü

Sk

■ ■

*****************

8-775

7079

CM O

©

CO

a

«

CO • •

O

o

!

■

1!

SWS

«I mm

laatfHiiljljl&ffi

Ä

1 O

8-776

lH

ec Ö

tf

3

as

!

tf

SB

5- ii

sis«

z o

s i 1«

■2*

P Q § 0.

9pi

pa OS B. O

o

g

E->

'S &

6i

8-777

oc

M

< a I

M

is j\

§ s

Si 6 s d

§1? *A*

z a

§ 6- U U

ll«

■2*

9g3

EU O oo

«

S3

DH o

I

o u

8-778

•

• CO

a a

i is S«fS

J4

6a z 3 S

Bs.

•S*

In a K a- O

isle ^ is ^

o

Z o

o Ö

« c S3

8-779

• 1-1 1-4

cd W

1

«

n

M

is ^P

rfi si

^4 Ö

§1-3 si«

Z a 3 W Q

'i*

ill M g

9 Q

0. o

I

O

8-780

S

0

S^P

7079

• iH iH • CO

a 1

'rfl

Ji

z 2 CD H a

E- U ü

E- U u

!i*

9si

o tt. o

15^

B? Q

§ EL.

Z o

o u

E-

E- Ei

E- U

E" U

J ob

8-781

7079

2

is s

$2. s Ö

5 ©

w? *4*<

M

o

z g 3 a

o H a,

U E" O Ü

E- U

N

GO §

i*

gig

E- Ei Ei a!)

E«

E- B

a

0

I

8

8-782

7079

SS e

•< Q

is

M

^

Ö

8S-» i^S«

« z g B W a

o w OS

« i*

00

a 5

9*5

a K a. O A.

eg1 6- BS

E-

6 o

a. o

I N 2

8-783

7079

Q

U

O

M

s

tf

ii

53 z 2 8

§3B

i*

9^5

g>gg&

Q

B? 5s

o

Z o

o

u

E- K

E-

E- K

Ei

E- as

8-784

ei

GO

a 8

as CO eo CO CO CO CO eo eo eo CO eo CO CO eo

£ CN CN CN CN *s S $ 00 GO CO CO CO CO CO CO CO CO CO CO

e CO S3 eo a 5 o> en en en cn en en cn © cn © CJ) © ©

Q

5> . , 1 I

feD

rf 4 1 j ! 1

s w IO ■V ^* i>

rfi PS e- CD en v ■V r- c» e- CD to

CO CN © © CO IA c* to CO t» to to iß t> c- r» CO CD t- CD

SB to ! •«

0.

o

4 j CO CO 10

: 2 w* *

Ji * © to

* s

• CO lO

• CO

# • to en s s t>

L0

• CO CD

V * GO CO

* IO ©

* CN CN

* O S5

*& v •v ^f in us LO LO in lO to

N" ID IO CD

IO © CO

to s LO to

£ ^ ipvi o © © o © 8 o 8 © a* -c CO eo en CN CD <N CN p- in CO ■V V «^

OS 0 S eN CN CN CN CO eo CO CO cn © o © CN CN CN CN ©

CO IO CO

r» o j J i ; i i ; : i i i ! i ; i

o a

M u i^

3?* S =« CL.

tt'fcj:: A © o Ö o 0) w* 1 i 5

$j -

s Ö

So Ö

lO c- Ö

CN LO LO v co * « s

- CN 35 *

■■O. CN IO o © o © w €*• LO CO

p CN CD

CN CD

CN CD

eN CD

CN CD

CN CD

CN CD

CN CD 8 8 8 8 s $ g «i 2

5! o O © o o O © O ""' — — *" o O o O *" ^*

2

TH

ICK

(i

n.)

B CO CN © © © © CO CO

CO

8 8 8 8 8 3 8 8

8 o © © © O © O O O © © © © o © © o o

£ ^ p 0 O o o o © 9 © © o O © © © o 9 o

0. S-S* © g 8 8 8 a 8 © X a 8 8 8 8 ©J © s s OQ z ~ CN CJ CN N CN CN CN es CO CO CO CO CO CO CN CN eo CO

9g = CN, CN O © O CN CN CN CO CO CO CD o o © o CN CN

sis CN CN CN CN V ^ e- t- CD to CO t> e» c» o c- c- O t» o e- c*

w « 1 £- I H

6ä° J, Jl j J)

iSc i H* i i*

BE*- ! S « t a SS

a B* 8 8 8 8 8 8 8 8 © o © o CN CN OJ CN v ■W

g" Q O O O o O O © o o © o © O o © © ©

o o CM

g ft g * S 0 2 z X

c 0 CO c n

§1 c i 0 p i D B

8-785

8-786

CO

« CO eo CO CO CO CO CO CO CO CO CO eo CN CN

3 © ^ CO CO CO CO 00 CO CO GO CO CO 00 00

P eo eo S? eo p £2 eo

V © en o> cn en en cn cn cn cn © © ©

a

2> JO , I

, J

tf

feQ U

<3 c ©

; i > t

12 * CN © © © © t* i •

©

I to t to CO CO t- e» CN cn CM "I

IN CN CO t» © CO t> CO CD CO CO e» t> CO CD C- 00

is i j to d

CO

©

tO d

CN

A 1 CO CO

CO "0"

© t-

o IO

w „

j£ ft » ft © © t- r— © CN ■w k> & ©

f o en cn CN CO CN C- Ji Jft» : CD en CN E o 10

t- eo 5p •0»

© to © 10 s ©

10 © to

© ©

t? Hi i o » © © CN

o o CO

© 00

© CM

© o o ©

o c-

O o © IO g g o

CO s g

« «a as

11 in eo CO

O CO

CO eo co CO

© CO

en CN

cn CN CO CO CO

© eo eo

to CO 3 s ©

eo

o OK Be - o o © ©

o o eo S o 3

r- S i l ■ ' ' ' ' ' ' eo CN

© CN 3 © S S 00

CN 0 SW ;*;«;•

#:«:■ M

■as" Ü.

ä :>KBS:! o CN — CO t> © o © © o o © ©

5

Si »3 :&©j

eo : Ä 8 & 8 8 a cn s s a * to V V B u 2

| f* ~~ "" ■" ^" *"* w* *"* ** CN " " " " " "

D INIT

(I

n.)

2a. § § 8

CO

s CN

8 o GO

o CN

© CO

© CO

© © o s i i ©

8 i S s |

3 *"* ^ O o © ~ *- *" *■" — " -* *4 •« ~* •* ^" «^ "^

z go CN CN cn cn OS eo cn ►>■ c* ©

s s ■V to to CM

to CN

to s © CN

© CN

" B« 3

8 B"" O O o o o o © o o © © o o O © O d © d

£ - o © o © o o o p © p <? ^ If* s 8 s s 8 8 a 8 S 8 s a a 8 s IS ef s ©

to * " CO CO CN CN CN CO CO CO CO eo CO CO GO eo CO to CO CO CO

9| = eo CO CO CO © CO CO c» t> ^ © CO © © rm CO CO eo © «cr ^r v V to v V ^

t> t» CO CO CD » » r- t> © ©

8« J r3

c o -J -J j J H

£ o F- f- H t- fi J} 00 o

p£ t-; 2° t-: H E-= v ^ ee^ K o K « Cti en

6 o Ö

o 6

CN

6 CN

d

CN

©' © © © d o

©

o d

CN

©

CN

O

N

O

CN

O

CN

©

CN

©

CN

o CN

©

0. 1 1 7* i 1 8 8 1 £ ji X X £ m u 03 CO W

==S o 2 P c

Q P p p P to p

8-787

7079 ■

O

c4

53

z Cd

s a, 0Q

1 2> 2 M feQ

s

go

J? 3 "8 J is <?

it • 6.

SB«

a s as

ii*

ö o § ft.

Bn g»

r: c D5

fr-

CO CJ

8-788

o ü CN

CN

CO

eo eo CO eo CO eo eo CO CO eo eo CO CO

CM CN CN CN CN CN CN CN

g CO GO CD co CO CO eo CO CO eo GO CO

1 CO

2 Ci Ol Ol Ol Ol Ol Ol o> 01 © © Ol

5> CO CO

rf 4 to

to Ö

IS • CD

• • * C0 eo •

Ol

Ol eo

* CO CO

CN • CD

to CO CO

S eo to

CO to

CD to CN 10 to 10 10 to

to to CO

2> fea

00 to Ö

a a 4 er ©

eo

w* Ä

J- M eo CO t> r—

f-?- © lO CO CN CO lO CO eo :/• Q CO CN CO CD to o

fi ^C V ■v v ■w

tf 31J 11 am'

S-. .z

o eo s O

CO © CO

© CN

© ©

© CO

© CO

© © o © GO

© 00

CN eo cn Ol CO Ol © © © CN

o

60 TO ol

eo CO eo CO CN CN CO CN CO CO

B« - o o © © o © o o © c S eo cn CD © CN Ol to © t» CN CD CO © t-

CN o »so WO-"

M

FIN

AL

(i

n.)

2a,

•:¥« «5 g S

CO

o © ©

| H S3

% S3 eo CO 8 S Ol LO a Si © B a

3 Elrf 1 o o s ©

8 o s

o CD

©

s ©

s © ©

8 © CO

O CO

o 8

$ 6 E? z IO IO CD CO CD CD CD CO CO CD CD © t—

N Hi

Ü fc° o o O © © © © o © O o o O

a* w © © o © © © © o O

73 eo CO eo" 8 CO

8 eo CO

8 CO* CO

a CO CO CO P5 eö

YIE

LD

ST

R

(K»l

) to CD •w ■V ■v V CN CN CN CO CO CO ©

o t» P- C~ t» t- C* c- C- c- t> t» f-

*J J d, o E^ f^ OQ

ss& H H ee^ « c

§u CN (N 04 CN CN C4 CN CN CN CN CN a a £~ o o O © © O © © O o © © o

Q O 0.

0 1 E0

CD

E

§1 Sp lO to

II S e

8-789

Ü

o Ü

CM CM"

CO

as CO CC CO CO CO CO

if CM CM CM CM CM CM CO

§ 00 CO CO CO CO CO GO

£ eo eo eo CO CO eo c- s CO

c- CO CO

c- CO ■ eo

t- 5 o en Cl

Q

rf

5> fen

CM

'1 CO CO

^ |o © CM

tf? CO © CO GO t- U5 CO 00 00 CO

S co CO CO CO CO co

5> ©

©

fea

^ CM

CO

a J.S _■ c^ CO CM CO CM

F5 ID CM 00 10 LO CO CO

»/^ :¥-Q": Oi © CM CM

*£ ■«

CO CO CO CO CO CO

rf ||j i o ID

o o CO

© 00

© © CO

© CO

o © en

© ©

© © ©

»s I» CO CO CO CO CO CO CO CO CO Ol ©

0) 2« :«8

o OS. &9 : i i i

j

£ 0 ii»..

D . H

FIN

AL

(I

n.)

2a, o © © © © o o ©

1 »3

" O s £;:©-■

■,:0'-

5

s CO

8 00

CM to oS

8ü ©

s © 00 oS

3 CO

8 ©■

©

CO

s = « g ©

s © s

o 8

© 8

© 8

o 8

© 8

o 8

o 8

o 8

o 8

t> c- C* C- e» c- c- t- i> c- t* t-

z S B SO

§ § o © 8

' © 8 § 1 | o

8 © 8

© 8 §

u

g» r:-D :

;co:

s O © O O © H © © ©

0, S-5* © o o O © © ©

o O

* ~ CM CM CM CM CM CM CM CM

° ■* ~ sis

CO CO CO CM CM CM CM CO CO t© CD CM CM CM

C- 1> c* » t> r» C- t* C- t> >. ™ °

o «■ M a Ji £ o ci as

6Sc H

£|2^ «

D

fi? s 8 8 8 8 s 8 8 8 8 8 8

EB

O 05 E V

a. 0 Eh

03

§1 Sp W

§1 ■ £

8-790

This page intentionally left blank

8-791

R \ 7079 I Condition/Ht: T6 Form: 0.17 in. Sheet Specimen Type: CCP (max load specified) Orientation: L-T Frequency: 2 Hz Environment: LAB AIR; RT

Yield Strength: 57 ksi Ult. Strength: Specimen Thk: 0.17 in. Specimen Width: 15 in. Ref: 86734

1

-2 10

10

.92 o

o 10

10 T3 —

"O _K - 10

10

10

AK (MPaVin) 4 10 40 100

I ' I M'l'l

(1 of 2)

- i ' i M'l'i r — Stress Ratio: 0.05

' i iiHI u

— 10

— 10

_0>

10"2 ° O

— 10 E

-iio >

10

— 10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) 19.31 (min) 20. 25. 26.41 (max)

55.4 64.8

167. 218.

RMS % Error

2.14

Life Prediction Ratio Summary on

i 1 1—-—i 1

0. .5 .8 1.25 2.

1

10

10 -3

_0J f—

O

6-10-4

10 -5

XI _e — 10

10

10

AK (MPaVin) 4 10 40 100

1—I I l I Mil

(2 of 2)

i- I ' I M'l'l 1 Stress Ratio: 0.5

i i I i I il

10

— 10

-îo"2£

10 E

10

10

10

o

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) 16.89 (min) 20. 25. 30. 31.99 (max)

175. 361. 998.

2653. 4165.

RMS % Error

7.44

Life Prediction Ratio Summary no

0. .5 .8 1.25

Figure 8.11.3.1.1 8-792

7079 Condition/Ht: T6 Form: 1.7 in. Billet Specimen Type: WOL Orientation: L—T Frequency: 1 — 30 Hz Environment: LAB AIR; RT

R

Yield Strength: 79 ksi Ult. Strength: 86 ksi Specimen Thk: 1.25 in. Specimen Width: 5 in. Ref: MA011

AK (MPaVin) 1 4 10 40 100

- I 'I M'l'l 1 ' I Tl'l — Stress Ratio: 0.02

(1 of 1)

-2 10

10

Ü

o 10

•o 10

10

10

10

.-6

I I I I III ' I I I I II

— 10

— 10

-2 -Jicf2£

o \

-3 | — 10 E

-10 > T3

10

10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) 5.46 (min) 6. 7. 8. 9.

10. 13. 16. 20. 20.96 (max)

0.107 0.270 1.03 2.79 5.90

10.4 28.9 52.9

108. 130.

RMS % Error 26.18


i 1 1 1 1—

0. .5 .8 1.25 2.

10

10

o O-10-4

c |_

-5 10

10

10

10

AK (MPaVin) 4 10 40 100

1 I 'I'M 1 ' I 'I'll

I I I 11II ' 1 I I III

10

10

10 E

10

10

10

o X)

4 10 40 100

AK (KsiVin)


RMS % Error


0. .5 .8 1.25

Figure 8.11.3.1.2 8-793

R I 7079 I Condition/Ht: T6 Form: Forging Specimen Type: CT Orientation: T-L Frequency: 9 Hz Environment: LAB AIR; RT

AK (MPaVin) 4 10 40 100

I M I MM

(1 of 2)

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) 4.14 (min) 5. 6. 7. 8. 9.

10. 13. 16. 20. 25. 27.05 (max)

0.205 0.441 0.939 1.78 3.10 5.03 7.72

21.5 39.5 42.7 51.4

109.

RMS % Error 40.40


1—

2. 0. —i \ 1—

.5 .8 1.25

Yield Strength: 72.6 ksi Ult. Strength: 83.4 ksi Specimen Thk: 0.4 in. Specimen Width: Ref: BW001

AK (MPaVin) 4 10 40 100

1 I 'I'PI

(2 of 2)

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) 2.16 (min) 2.5 3. 3.5 4. 5. 6. 7. 8. 9.

10. 10.09 (max)

0.152 0.190 0.303 0.508 0.848 2.15 4.67 8.67

14.1 20.4 26.8 27.4

RMS % Error 31.65


' ' ' ' 2. .5 .8 1.25

Figure 8.11.3.1.3 8-794

7079 Condition/Ht: T6 Form: Forging Specimen Type: CT Orientation: T—L Frequency: 9 Hz Environment: H.H.A.; RT

R

Yield Strength: 68.8 ksi Ult. Strength: 78.7 ksi Specimen Thk: 0.4 in. Specimen Width: 4.5 in. Ref: BW001

AK (MPaVin) 4 10 40 100

(1 of 2)

-2 10

10

Ü

6^10-+

z: 10

-o _« — 10

10

10

.-6

- I I I 'I'l'l I ' I 'I'l'l - — Stress Ratio: 0.05 —

— —

: m —

""**■

—

— lr —

— sj —

"• I , I,I,I, I , l,l,l, —

10

_0)

io"2£ o

,.-!

- _x~a

AK (MPaVin) 4 10 40 100

10

— 10

— 10

o T3

4 10 40 100

AK (KsiVin)

10

10

u

Z 10

xi _,- I— 10

10

10

- I I I M'l'l I ■ I 'I'l'l -1


— —

— -=

— J -=

— # —

— ~gP —

~ 1 , 1,1,1, 1 , 1,1,1, -=

(2 of 2)

10

<D

10" 2 Ü

>> o \

10" •|

z ^ 10 u

XI

— 10

— 10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 4.09 (min) 0.350 5. 1.87 6. 4.77 7. 7.83 8. 10.5 9. 13.1

10. 15.9 13. 30.5 16. 51.7 20. 72.9 25. 92.3 29.94 (max) 145.

2.22 (min) 2.5 3. 3.5 4. 5. 6. 7. 8. 9. 9.83 (max)

0.182 0.273 0.537 0.983 1.67 4.02 7.84

13.3 21.8 36.9 59.3

RMS % Error 29.46


.5 .8 1.25

RMS % Error 21.27


0. .5 .8 1.25

Figure 8.11.3.1.4

8-795

R I 7079 I Condition/Ht: T651 Form: 0.16 in. Sheet Specimen Type: CCP (max load specified) Orientation: L-T Frequency: 2 Hz Environment: LAB AIR; RT

1

10 -2

10 -3

Q) —

u _ 5^10-4

c |_

-s 10

10

10

10

AK (MPaVin) 4 10 40 100

I ' I 'I'l'l

(1 of 1)

i ■ i 'I'n r - Stress Ratio: 0.05

I ■ I.I.I. ■ i iiHI

10

— 10

— ®

10 E

-=110 >

— 10

— 10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (1CT6in/cycle) 9.57 (min)

10. 13. 16. 20. 25. 26.66 (max)

14.7 16.1 30.4 53.0 93.9

135. 137.

RMS % Error

5.87

Life Prediction Ratio Summary CD

2. 0. —i 1 1—

.5 .8 1.25

Yield Strength: 72.6 ksi Ult. Strength: 79.1 ksi Specimen Thk: 0.16 in. Specimen Width: 14 - 14.01 in. Ref: 86734

AK (MPaVin) 1 4 10 40 100

b I ' I 'I'l'l 1 ' I 'I'M

10 -2

--3 10

O

6-10-4

z 10

XI 10

10

10 I I I 11II I I 11 III

10

10

io"2£ o \

-3 | 10 E

— 10

10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10'6 in/cycle)

RMS % Error


.5 .8 1.25

Figure 8.11.3.1.5 8-796

7079 Condition/Ht: T651 Form: 0.16 in. Sheet Specimen Type: CCP (max load specified) Orientation: L—T Frequency: 2 Hz Environment: LAB AIR; RT

R

Yield Strength: Ult. Strength: 79.1 ksi Specimen Thk: 0.16 - 0.161 in. Specimen Width: 3 in. Ref: 86734

AK (MPaVin) 4 10 40 100

(1 of 1)

-2 10

10

o 6^10-+

\ c _

2 10-5

"O _B — 10

10

10

.-6

- I I I llll'l I ' I 'I'll -L


: —

— —

— —

E / —

— —

" 1 , 1,1,1, 1 , 1,1,1, —

— 10

10"2^ o \

-3 % 10 E

T3

- 10 > o

— 10

— 10

4 10 40 100 AK (KsiVin)

10

10

o G-10-4

10

10

10

10

AK (MPaVin) 4 10 40 100

I ' I 'I'll ~ I I I I Ml

I I I I III ' I I I III LL

— 10

— 10

10" 2ö

O \

10" 4 s—' z

m~ ̂ u

■D

10

10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 5.75 (min) 6. 7. 8. 8.92 (max)

2.88 3.20 4.87 6.81 8.25

RMS % Error 12.23

Life Prediction Ratio Summary □ o

i 1 1 1 1—

0. .5 .8 1.25 2.

RMS % Error


0. —i 1 1—

.5 .8 1.25 2.

Figure 8.11.3.1.6 8-797

R 1 7079 I Condition/Ht: T652 Form: 6 in. Forging Specimen Type: CCP (max load specified) Orientation: L-S Frequency: 5.2 Hz Environment: LAB AIR; RT

AK (MPaVin) 4 10 40 100

i I i I 11' I

(1 of 1)

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10-6in/cycle) 5.82 (min) 6. 7. 8. 9.

10. 13. 16. 17.35 (max)

2.24 2.58 4.98 8.05

11.6 15.5 27.7 37.4 39.9

RMS S Error -

5.31


i 1 1 1 i

.5 .8 1.25 2. 0.

Yield Strength: Ult. Strength: Specimen Thk: 0.75 in. Specimen Width: 3 in. Ref: 77720

AK (MPaVin) 1 4 10 40 100

10

10

_aj —

o ^10"4

Z 10

10

10

10

- I ' I 'I'l'l 1 ' I TIM 3

" I , I ,1,1, 1 . I.I.I. =

10

— 10

Ü

-3 I 10 E

-a — 10 \

D

— 10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10"6 in/cycle)

RMS % Error


.— 0.

H r .5 .8 1.25

Figure 8.11.3.1.7 8-798

Condition/Ht: T652 Form: 6 in. Forging Specimen Type: CCP (max load specified) Orientation: L-T Frequency: 5.2 Hz Environment: LAB AIR; RT

7079


R

AK (MPaVin) 1 4 10 40 100

(1 of 1)

10

10

_a> I— ü o 10

10

"o _c — 10

10

10

-7

_ | I | l|l|lj | I | Ijljlj ML


— —

— —

: i —

— W —

— —

II I I

I , !,!,!, —

— 10

io"2£ o \

-3 | 10 £

AK (MPaVin) 1 4 10 40 100

-2

- icT\ o T3

10

-6 — 10

4 10 40 100 AK (KsiVin)

10

10

_QJ I— O

6^10-4

c _

2 10

10

10

10

-7

I II

I

I II

I

V

— —

— —

— —

— —

: -=

- i , i,i,i, I < M,l< —

10

— 10

_0J

io"2^ u \

-3 | 10 E

- 10 \ o

— 10

10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 5.59 (min) 6. 7. 8. 9.

10. 13. 16. 20. 21.86 (max)

4.25 5.40 8.71

12.7 17.2 22.4 41.8 69.9

145. 213.

RMS % Error 18.41

Life Prediction Ratio Summary »A □

i 1 1 1 1—

0. .5 .8 1.25 2.

RMS % Error


0. —i 1 1—

.5 .8 1.25 —i-'

2.

Figure 8.11.3.1.8

8-799

-I 7079 h Condition/Ht: T652 Form: 6 in. Forging Specimen Type: CCP (max load specified) Orientation: T-S Stress Ratio: 0.33 Frequency: 5.2 Hz

AK (MPaVin) 10 40 100

10

10

ü

o 10

Z 10

10

10

10

^T ' I M'l'l I ' I M'l'l a

— Environment: L.H.A.; R.T. -=

— —

—

—

— —

— —

- I , I,I,I, I , I,!,E,

—

(1 of 4)

— 10

10

10

0)

ü

-3 | 10 E

-ho> XI

— 10

— 10

10 AK (KsiVin)

40 100

AK (KsiVin) da/dN . (10'6in/cycle) 5.83 (min) 6. 7. 8. 9.

10. 13. 16. 16.92 (max)

2.69 2.84 3.99 5.47 7.07 8.60

13.5 17.1 16.7

RMS % Error 16.33

Life Prediction Ratio Summary o D

i 1 1 —i 1

.5 .8 0. 1.25


AK (MPaVin) 4 10 40 100

(2 of 4)

10

10

O

a 10

Z 10

o "d -6

10

10

10

- T ' I M'l'l I ' I M'l'l J

— Environment: Lab Air; R.T. —

— —

— —

— —

~ w —

"""* —

- I , I,I,I, I , LLL

—

— 10

— 10

J2 io"2^

o \

10 £

- _^T3 10

— 10

— 10

D X»

10 40 100

AK (KsiVin)


10. 13. 16. 20. 22.12 (max)

2.40 3.19 4.94 6.69 8.44

10.3 17.8 30.1 60.5 90.1

RMS X Error 11.47

Life Prediction Ratio Summary «©A

2. 0. —i 1 1—

.5 .8 1.25

Figure 8.11.3.1.9 8-800

7079 Condition/Ht: T652 Form: 6 in. Forging Specimen Type: CCP (max load specified) Orientation: T—S Stress Ratio: 0.33 Frequency: 5.2 Hz


-2 10

10

o

£l 0"+

10

10

10

10

AK (MPaVin) 4 10 40 100

i—i i > um—

(3 of 4)

I I I I MM

-Environment: H.HA; R.T. — 10

AK (MPaVin) 4 10 40 100

(4 of 4)

4 10 40 100 AK (KsiVin)

10

10

O O 10

T3 10

10

10

10

I ' I 'I'll I ' I 'I'l'l Environment: Salt Fog; R.T. — 10

10

io"2^ o

10 o

-5 10

10

4 10 40 100

AK (KsiVin)


10. 13. 16. 17.28 (max)

3.40 4.49 7.23

10.0 13.2 17.1 36.8 74.8

113.

5.46 (min) 6. 7. 8. 9.

10. 13. 16. 16.26 (max)

3.35 4.69 7.88

11.7 15.7 19.4 37.9 77.1 79.3

RMS % Error

8.40


0. .5 .8 1.25

RMS % Error 10.67


i 1 1 1 1—

0. .5 .8 1.25

Figure 8.11.3.1.9 (Concluded) 8-801

R 1 7079 I Condition/Ht: T652 Form: 6 in. Forging Specimen Type: CCP (max load specified) Orientation: T—L Frequency: 5.2 Hz Environment: LAB AIR; RT


AK (MPaVin) 1 4 10 40 100

(1 of 1)

-2 10

10

O

u^10-4

c _

■Z. 10

■o

10

10

10 ,-s

- I I I <lllll I I I ll>lll -1


— —

— —

r

—

Ü —

~"~ —

" 1 , 1,1,1, 1 , 1,1,1, —

10

io"2o o

10 E

XI

— 10

— 10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (I0'6in/cycle) 5.52 (min) 6. 7. 8. 9.

10. 13. 15.68 (max)

2.73 3.70 6.24 9.22

12.4 17.1 56.0 98.5

RMS % Error 11.14

Life Prediction Ratio Summary o a

AK (MPaVin) 1 4 10 40 100

-2

0. —I 1—

.5 .8 1.25

10

10

.£? I— u

^10"+

\ c _

Z 10 ■a p

■o . — 10

10

10

- I ' I 'I'l'l I ' I M'l'l n

10

10

-2 TT 10" °

o

10 E

- _^-o 10

10

o

— 10

4 10 40 100 AK (KsiVin)


RMS % Error


0. —i 1 :

.5 .8 1.25

Figure 8.11.3.1.10 8-802

i -7 07 'I 1 I / y 1 ~ K

Condition/Ht: T652 Form: 6 in. Forging Yield Strength: Specimen Type: CCP (max load specifie d) Ult. Strength: Orientation: S—T Specimen Thk: 0.75 in. Frequency: 5.2 Hz Specimen Width: 3 in. Environment: LAB AIR; RT Ref: 77720

AK (MPaVin) (1 of 1) AK (MPaVin) 1 4 10 40 100 1 4 10 40 100

-Ml M'l'l I ' l 'l'l'l ^ - I ' I 'ITI I ' I 'ITI _1_

- Stress Ratio: 0.33 — 10 10

10"2 ~~ _

io"2 — — 10 — 10 — -3 —

10 <D 10 <D __ —.

a> _

— io~2£ a; — — 10"*^ o o o — Ü

6^10-+ frio"4 — —

c □ 10 E c — 10 E —' v— s— — ^^

2 10"5 Z10"5 z -4J3

\ 10 \ \ 10 > O — o o o "° -6 x> ~° -6 _ x>

10 10 -5

10 — -5

10

10"7 — - io-7 - =

— -6

10 — -s

10

10"8 ~ I , J .I.I. I , I,I,I, - 10"8 " I , I,I,I, I , I,I,I, -

1 4 10 .40 100 1 4 10 ,40 100

AK (KsiVin) AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (10 "6in/cycle) 5.58 (min) 2.93 6. 3.50 7. 5.44 8. 8.40 9. 12.6

10. 18.3 11.52 (max) 29.9

RMS % Life Prediction Ratio Summary RMS % Life Prediction Ratio Summary Error cm Error

12.33 1 T 1 i i

0. .5 .8 1.25 2. 0. .5 .8 1.25 2.

Figure 8.11.3.1.11 8-803

R ] 7079 I Condition/Ht: T652 Form: 6 in. Forging Specimen Type: CCP (max load specified) Orientation: S-L Frequency: 5.2 Hz Environment: LAB AIR; RT

AK (MPaVin) 4 10 40 100

10 -2

-3 10

o ^10"+

c _

10

10

10

10

= -■[' ' I 'I'l'l I ' I 'I'l'l -1

— Stress Ratio: 0.33 -=■

— —

— —

~~ —

—

—— —

~ 1 , 1,1,1, 1 , 1,1,1, —

(1 of 1)

10

10

io"2£

-3 | 10 E

— 10

10

-a

o

10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) 8.37 (min) 9.

10. 12.82 (max)

3.13 4.98 9.73

56.4

RMS % Error 17.76

Life Prediction Ratio Summary a n

i 1 1 1 1

0. .5 .8 1.25 2.


AK (MPaVin) 1 4 10 40 100

10

10

ju — o O-10-4

Z 10

"o _K I— 10

10

10

I II

I

I III

I-

— —

— —

— —

^~ —

— —

I 1 I 1 I ill 1 ,1,1,1, —

10

— 10

10 E

-J10 >

— 10

— 10

4 10 40 100 AK (KsiVin)


RMS % Error


i , r— 1 1

0. .5 .8 1.25 2.

Figure 8.11.3.1.12 8-804


8-805

d 7079 I Condition/Ht: T6 Form: 1 in. Plate Specimen Type: DCB Orientation: Yield Strength: Ult. Strength:

Specimen Thk: 1 in. Specimen Width: 3.5 in. Ao: Kiscc" 4.3 ksi Ref: 84-330

Kmax (MPaVin) ° °f 1)

1 4 10 40 100

I ' I'l'l'l 1 ' I'l'l'l - Environment: 3.5« NaCI — 1 °

10

10

°10°

10

10

10

10

-3

I ■ I.I.I . I I I 111

10

2 ^- 10 i \

- 1 E -=10 E

T3

— 10

10

4 10 40 100 Kmax (KsiVin)

Kmax (KsiVin) da/dt (10'3in/hour) 5.20 (min) 6. 7. 7.20 (max)

90.0 230. 313. 336.

RMS % Error 8.38

Kmax (MPaVin) 4 10 40 100

t= I ' I 'I'l'l—I ' I 'I'l'l

10

10

_°10u

10

-o _, — 10

10

10 . I.I.I. I I I llll

10

10

2 1-

1 A

-=Jl0 >

— 10

10

1 4 10 40 100 Kmax (KsiVin)

Kmax (KsiVin) da/dt (10_3in/hour)

RMS % Error

Figure 8.11.3.2.1 8-806

1 -70-70 1 ,

Condition/Ht: T651 Form: Specimen Thk: 1 in.

Specimen Type: DCB Specimen Width: 5 in.

Orientation: S—L Ao: Yield Strength: Kjscc: Ult. Strength: Ref: 76442;78313

Kmax (MPaVin) (1 of 5> Kmax (MPaVin) (2 of 5)

1 4 10 40 100 1 4 10 40 100

.„* -Ml 'I'l'l I ' l'l'l'l a 4

_ | i | i|i|i| | i | i|i|i| J.

- Environment: 8M NAI -700MV; — 10 - Environment: 0.6M Kl -700MV— 10 _ R.T. — R.T.

io2 10*

= io3 — 3 10

101 10* 2 »- — 2 I-

i- — 10 s L_

— 1U t c 3S8E!

Jio° \ c

IW — \ 1 E

10 £

°10° \ c

1 E 10 £ E F

=

—-

-M10_1

■o \ o

_ n -

10 >

-M IO"'

\ O

ijPHn

10 ^ — E f 1 "° -2

10 - XJ "° -2

10 1 "O

lil -1

10 — n -1

10

io"3 io-3

-2 10

-2 10

m-4 ~ I , I,I,I, I , I, I,I, m"4 " 1 , 1,1,1. 1 , 1,1,1, 1 4 10 40 100

Kmax (Ksivin) 1 4 10 40 100

Kmax (Ksivin)

Kmax (KsiVin) da/dt (10"3in/hour) Kmax (KsiVin) da/dt (10"3in/hour)

6.50 (min) 377. 5.50 (min) 8.11 7. 804. 6. 13.6 8. 1708. 7. 30.3 9. 2131. 8. 53.7

10. 2194. 9. 81.4 13. 2549. 10. 110. 16. 2512. 13. 182. 19.00 (max) 2532. 16. 211.

19.20 (max) 205.

RMS % RMS %

Error Error

22.8 20.6

Figure 8.11.3.2.2

8-807

7079 Condition/Ht: T651 Form: Specimen Type: DCB Orientation: S-L Yield Strength: Ult. Strength:

Specimen Thk: 1 in. Specimen Width: 5 in. Ao: Kjscc" Ref: 76442;78313

10

10 -i

10

c —

10 T3 ~

T3 10

10

10

Kmax (MPaVin) (3 of 5)

4 10 40 100

I ' I 'I'l'l I ' I 'I'l'l - Environment: 5M KF -700MV; —

R.T.

"?"

jjjiili

ÛWPI

I ' ' ' i "i LL

10

10

-J10 i

10 o

-3 10

10


Kmax (KsiVin) da/dt (10_3in/hour) 4.80 (min) 5. 6. 7. 8. 9.

10. 13. 16. 19.00 (max)

0.608 0.634 0.773 0.922 1.07 1.20 1.32 1.50 1.52 1.49

RMS X Error 11.93

1

10

10

3 .\- ° 10" p_ \ - S <~ ^^ -3 -^ 10

O x» jh

10

10

10


4 10 40 100

b I ' I 'I'l'l -Environment: Dist. Water 0C; -=^10

R.T.

' i i iHI

i'i'i'i'i

I , Mil

10

o i- 10 s x: \

-i E 10 E

10

10

10

o T7

4 10 40 Kmax (Ksivin

0 100

)

Kmax (KsiVin) da/dt (10"3in/hour)

RMS % Error

Figure 8.11.3.2.2 (Continued) 8-808

Condition/Ht: T651 Form: Specimen Type: DCB Orientation: S-L Yield Strength: Ult. Strength:

7079

Specimen Thk: 1 in. Specimen Width: 5 in. Ao: K|scc* Ref: 76442;78313


4 10 40 100

10

10

3 . —

x: \ c

10

10

o T3

10

10

10

= I ' I 'I'I'I I ' I 'I'I'I -1

- Environment: 3X/DAY-3.5 NaCh=

— —

~ y —

— J3 —

— fl —

— —

II 1 1

1 , I.I.I, —

10

10

o i- 10 S

,o-i

— 10

10

Kmax (MPaVin) 1 4 10 40 100

4 10 40 100 Kmax (Ksivin)

10

10

I-

_°10~ \ c

-M 10" ■a tz

o ■a

10

10

10

I III

I III

I-

— —

— —

— —

— —

— —

Ill I

I . I.I.I. —

0 L. 10 i

-1 -,-o 10

10

10

o


Kmax (KsiVin) da/dt (10_3in/hour) Kmax (KsiVin) da/dt (10"3in/hour) 3.60 (min) 4. 5. 6. 7. 8. 9.

10. 13. 16. 19.00 (max)

0.395 0.599 1.98 5.97

U.4 27.0 40.2 50.1 72.2

119. 140.

RMS X Error 19.31

RMS % Error


—1 7079 1 Condition/Ht: T651 Form: 1 in. Plate Specimen Type: DCB

Specimen Thk: Specimen Width: 11.8 in.

Orientation: T—L Ao: Yield Strength: 65 ksi Ult. Strength:

Kiscc: Ref: 85543

1 Kmax (MPaVin) (1 of 1>

4- 10 40 100 1 Kmax (MPaVin)

4 10 40 100

2 10 - I ' I 'I'l'l I ' I 'I'l'l

— Environment: Air; R-T. 102 -I'M I'l'l I ' I ' I'l'l -1

10°

10-1

3 , °io-2

\

-M10-3

XI \ o ■O -4

10

10-

io- 1

1 10

0 v_ 10 1 A

■*->

10 > XI

-3 10

-4 10

10°

10-1

/_T'

°10"2

\ c

*-10-3

XI \ o XI _4

10

10-

10-

1 10

o »- 10 i \

-i E 10 E

»-^ ■>->

XI

-3 10

-4 10

"^

~ I , I . I. I. I , I,I,I, " 1 , 1,1,1, I , I,I,I, 4 10 40 1C Kmax (Ksivin)

)0 1 4 10 40 100 Kmax (Ksivin)


3.60 (min) 0.0140 4 0.0451 5' 0.269 6 0.654 7 1.02 8. 1-27 9. 1-40

10. 1-47 13. 1-62 16. 1-81 20. 1-91 25. 1.81 28.50 (max) 1-87

RMS % Error

RMS % Error

12.77

Figure I J.ll.3.2.3

8-* no


8-811

-\ 7079 I Condition/Ht: T651 Form: 1 in. Plate Specimen Type: DCB Orientation: T—L Yield Strength: 65 ksi Ult. Strength:

Specimen Thk: Specimen Width: 11.8 in. Ao: Klscc^ Ref: 85543

1 Kmax (MPaVin) (1 of 4)

4 10 40 100

b I ' I 'I'l'l 1 ' I'l'l'l Environment: Air (100* RH); -d10

L. R.T. ^

10

0 i- 10 S \

10"11

10

10

10


Kmax (KsiVin) da/dt (10"3in/hour) 4.70 (min) 5. 6. 7. 8. 9.

10. 13. 14.80 (max)

0.200 0.292 0.694 1.12 1.45 1.65 1.75 1.68 1.58

RMS % Error 8.41

pr—|—r-T-T

-Environment: 3.5« NaCI; R.T. — 10

10

10

10

10

10

10

10


4 10 40 100 i I i |i|M TTT

10

2 »- 10 1 A 10

10

o

-2 10

4 10 40 Kmax (Ksivin)

100

Kmax (KsiVin) da/dt (10"3in/hour) 5.00 (min) 6. 7. 8. 9.

10. 13. 14.10 (max)

1.34 33.1

490. 1392. 1574. 1724. 1639. 1700.

RMS % Error 12.88

Figure 8.11.3.2.4 8-812

7079 Condition/Ht: T651 Form: 1 in. Plate Specimen Type: DCB Orientation: T—L Yield Strength: 65 ksi Ult. Strength:

Specimen Thk: Specimen Width: 11.8 in. Ao: Kiscc: Ref: 85543

10

10

sz \ c

10

-^10

10

10

10

-3


4- 10 40 100 1 I'l'l'l I ' I 'I'l'l

Environment: Aqueous Iodide — 10 PH=0; R.T. ^

— 10

2 »-

-■I 10

10

10

o



1 4 10 40 100

10

10

10

3 . —

10

c —

^ 10 ■o

a "° -2 10

10

10

_ | i |.|.|i| | i | T|i| a — Environment: Aqueous Iodide -= _ PH=11; R.T. =

— —

[ JBB —

" /

—

III I

—

— / -=

—B

-

III I

I , t , I . I. —

10

2 1- 10 s

10

- n X> — 10

-1 — 10

-2 10

Kmax (Ksivin) vml

Kmax (KsiVin) da/dt (10"3in/hour) Kmax (KsiVin) da/dt (10_3in/hour) 3.80 (min) 4. 5. 6. 7. 8. 9.

10. 13. 15.50 (max)

53.2 96.6

676. 1713. 2630. 3125. 3263. 3205. 2889. 2994.

5.30 (min) 6. 7. 8. 9.

10. 13. 13.70 (max)

0.385 5.26

73.5 419.

1283. 2511. 3487. 2963.

RMS % Error 17.85

RMS % Error

54.44

Figure 8.11.3.2.4 (Concluded)

8-813

1 7079 I Condition/Ht: T651 Form: 1 in. Plate Specimen Type: DCB Orientation: T—L Yield Strength: Ult. Strength:

Specimen Thk: Specimen Width: Ao: Kjscc- Ref: 85543

Kmax (MPaVin) (1 of 8>

1 4 10 40 100

b I ' I 'I'l'l 1 ' I'l'l'l - Environment: 0.002M Kl _ -450MV; R.T.

10

10

3 . — °10

c

.-2

10 -3

o

10

10

10

— 10

I ■ l.l.l, i I i 1111

10

o »- 10 §

-1 E

10

10

10

o XI


Kmax (KsiVin) da/dt (10_3in/hour) 5.00 (min) 6. 7. 8. 9.

10. 13. 16. 16.40 (max)

0.599 0.860 2.07 3.80 4.47 4.34 4.27 4.24 4.27

RMS S Error 11.03

Kmax (MPaVin) (2 °f 8)

1 4 10 40 100

= I ' I'l'l'l 1 ' I 'I'l'l — Environment: 0.02M Kl

-450MV; R.T. 10

10

a „ — °10 \ c

-2

\ O

10

10

10

10 Mill

ntm

I I I llll

10

10

-d10 i SI \

-i E ^J10 £

10

10

o

— 10

10 40 x (Ksivin

0 100 Kmax (KsiVin)


RMS % Error

Figure 8.11.3.2.5 8-814

I -7 n-7n I 1 / u / a 1

Condition/Ht: T651 Form: 1 in. Plate Specimen Thk: Specimen Type: DCB Specimen Width: Orientation: T-L Ao: Yield Strength: Klscc: Ult. Strength: Ref: 85543

Kmax (MPaVin) (3 of 8) Kmax (MPaVin) (4 of 8)

1 4 10 40 100 1 4 10 40 100 _ I 1 I illlll 1 1 1 llllll -1 _ | i | i|i|i| | i | i|i|i| J

4

— Environment: 0.05M Kl — 10 -Environment: 0.1M Kl -450MV— 10 _ -450MV; R.T. _ R.T.

10° 102

1 10

— 3 10

io-1 - io1 - » T^ _ _

0 L. -_2 *- IT*

°10"2

\ c

ram 101

|io° \ c

"^ 1 □

— Z^^r — ^^ *^^" ■*-> io-3 ^

-M IO"' ■o \ 10 \

"I'lWI 10 \

o o O o "° -4 — TJ "° -2 T3

10 10

— — -3

10 ~~zz io"1

io"5 io-3 —

-4 — -2

— 10 — 10

m" ~ 1 , 1,1,1, 1 , 1,1,1, - m"4 ~ I , I,I,I, I , I,I,I, 1 4 10 40 100

Kmax (Ksivin) 1 4 10 40 100

Kmax (Ksivin)

Kmax (KsiVin) da/dt (10"3in/hour) Kmax (KsiVin) da/dt (10_3in/hour)

RMS % RMS % Error Error


7079 Condition/Ht: T651 Form: 1 in. Plate Specimen Type: DCB Orientation: T—L Yield Strength: Ult. Strength:


1 4 10 40 100 r-p-rrji

10

101

110° \ c

-M10~1

■o \ o

~° -2 10

ID"3

ID"4

b I ' I'l'l'l -Environment: 0.2M Kl -450MVr=pO _ R.T.

LLL u I I I [ III

10

2 V.

'° 1 -o'l 10

10

10

o

4 10 4 Kmax (KsiVi

0 100

in)


RMS * Error

Specimen Thk: Specimen Width: Ao: Kiscc: Ref: 85543


1 4 10 40 100

b | ' I'l'l'l 1 ' I 'I'l'l -Environment: 0.5M Kl -450MVH10

_ R.T. 10

10

110°

10 ,-i

■a — \ o

■o _, — 10

10

10 ■ i i mi ■ i i mi

— 10

2 1- 10 s 1 E

-J10 E

Jio > ■D

10

-2 10

4 10 40 Kmax (KsiVin)

o 100

Kmax (KsiVin) da/dt (1(r3in/hour) 7.90 (min) 8. 9.

10. 13. 14.80 (max)

6.74 7.45

29.6 111. 267. 256.

RMS % Error 30.14


1 7079 I—i Condition/Ht: T651 Form: 1 in. Plate Specimen Thk: Specimen Type: DCB Specimen Width: Orientation: T—L Ao: Yield Strength: Kjscc: Ult. Strength: Ref: 85543


1 4- 10 40 100 1 4 10 40 100 _ | 1 | .|l,l| | 1 |l|l|l| _L

4 _ | i | i|i|i| | i | i|i|i| a

4

- Environment: 2M Kl -450MV; — 10 — Environment: 3M Kl -450MV; -^ 10 _ R.T. _ R.T. -|

102 102

-= io3 — —

3 10

101 - io' ^-N 2 i- .~2 L- _^ 10 3 ^-^ 10 2 1_ — o i_ o

3 c =J . JZ

°10° "~™

-'1 °10° 'FTTl

io'1 (

c — c v^ __ ^^ v—' >»-•

j_. id-1 +J 10 T3 — 0 "° T> 0 3> \ 10 \ \ . 10 > o — o o ■ o

13 -2 •u ■O -2 "D

10 10

— -1

10 -1

10

^_-3 10 10

-2

10 -2

10

10"* " 1 . I.I.I. I^JLLL - io"4 ~ 1 , 1,1,1, I , I, I.I, 1 4 10 40 100 1 4 10 40 100

Kmax (Ksivin) Kmax (Ksivin)

Kmax (KsiVin) da/dt (10_3in/hour) Kmax (KsiVin) da/dt (10"3in/hour)



8-817

7079 I Condition/Ht: T651 Form: 1 in. Plate Specimen Type: DCB Orientation: T-L Yield Strength: Ult. Strength:

Kmax (MPaVin) ° of 8)

1 4 10 40 100

b I ' I 'I'l'l I ' I'l'l'l

10

101

110°

c

+-10" ■o \ o

10

10"

10"

Environment: 3M Kl 221F -450MV

— 10


Kmax (KsiVin) da/dt (10"3in/hour) 2.90 (min) 3. 4. 4. 5. 6. 7. 8. 9.

10. 13. 16. 18.50 (max)

86.2 125. 485.

1060. 2264. 3275. 4529. 6407. 8513.

10122. 9290. 9156.

10087.

RMS % Error 22.9

Specimen Thk: Specimen Width: Ao: Kiscc^ Ref: 85543


1 4 10 40 100 1 I'l'l'l

10

10

Jio° \ c

-1 10

o "O -2

10

10

10

-3

I- I ' I'l'l'l Environment: 3M Kl 201F —

-450MV

-nr n

-cr-

hi i i ■ in. I . I.I.I.

10

10

2 1- 101 A

- n T> 10

10

— 10


0 100


RMS % Error

Figure 8.11.3.2.6 8-818

7079 Condition/Ht: T651 Form: 1 in. Plate Specimen Type: DCB Orientation: t—L Yield Strength: Ult. Strength:



1 4 10 40 100

b I ' I 'I'l'l—I ' I'l'l'l -Environment: 3M Kl 176F -=|10 _ -450MV

10

101

lio° \

.^10"

10 .-2

10

10

-3

ID

I .I.I LÜ. ■ I i HI

— 10

-=10 g

^<>'I 10

10

10

o T3



RMS % Error


1 4 10 40 100

b I ' I'l'l'l 1 ' I 'I'l'l Environment: 3M Kl 156F

|_ -450MV 10

4 10 40 1( Kmax (Ksivin)

Kmax (KsiVin) da/dt (10"3in/hour) 4.00 (min) 5. 6. 7. 8. 9.

10. 13. 16. 17.90 (max)

2.73 20.0

284. 1974. 4531. 4812. 4015. 4033. 3922. 4000.

RMS % Error 11.38


^ 7079 I Condition/Ht: T651 Form: 1 in. Plate Specimen Type: DCB Orientation: T-L Yield Strength: Ult. Strength:

Specimen Thk: Specimen Width: Ac-: Klscc: Ref: 85543


1 4 10 40 100

b I ' I 'I'l'l I ' I 'I'll — Environment: 3M Kl 113F _ -450MV

10

10

310«K

\ c

10

\ O

10

10

10 I . I.I.I. -ill

10

10

A 10

10

10

D XI



10. 13. 16. 18.00 (max)

5.87 7.77

62.7 227. 577.

1220. 2425. 2553. 2300.

RMS % Error 17.26


1 4 10 40 100

b I ' I 'I'l'l 1 ' I 'I'l'l - Environment: 3M Kl 70F _ -470MV

10

10

JC \ c

10

-i ^10 ■o \ o "° -2

10

10

10 I I I III I.I I ■ l.l.l.

— 10

10

-M° g \

1 E 10 E

Jio > XI

10

— 10



10. 13. 16. 18.50 (max)

0.735 0.820 5.76

59.3 355. 918.

1569. 1561. 1550.

RMS * Error 9.3




10

10

Jl0°

^10

10

10

10


4 10 40 100 I ■ I 'I'l'l 1 ' I M'l'l

Environment: 3M Kl 37F -^10 -450MV

renn

I , 1.1,1 1 ■ 1,1.1.

10

2 I-

SI

i E 10 E

10

10

10

■o

o


10

10

sz 10

10

o -a

10

10

10


4 10 40 100

I ' I'l'l'l 1 ' I M'l'l Environment: 3M Kl 12F -=J 10

-450MV

1 ■ I.I.I.I I ■ I.I.I.

10

10 s JZ \

-i E 10 £

~ -2"°

-a

-3 10

10


Kmax (KsiVin) da/dt (I0"3in/hour) Kmax (KsiVin) da/dt (10"3in/hour) 8.20 (min) 9.

10. 13. 16. 18.20 (max)

19.7 100. 346.

1059. 998.

1027.

8.00 (min) 9.

10. 13. 16. 17.30 (max)

0.705 29.3

183. 641. 859. 819.

RMS % Error

23.64

RMS % Error

23.03


^ 7079 I Condition/Ht: T651 Form: 1 in. Plate Specimen Type: DCB Orientation: T-L Yield Strength: Ult. Strength:


1 4 10 40 100

b I ' I 'I'l'l 1 ' I 'I'l'l

10

10

3 . °10*

10

10

10

10 .-6

Environment: 5M Kl; R.T.

■ I.l ■ I ilil

— 10

10

sz \

- -1 E -10 E

-2, 10

10

10

a


Kmax (KsiVin) da/dt (10"3in/hour) 7.50 (min) 8. 9.

10. 13. 15.00 (max)

2.06 4.44 8.89

10.7 11.6 11.6

RMS % Error 7.75

Specimen Thk: Specimen Width: Ao: Kjscc: Ref: 85543


1 4 10 40 100

b I ' I 'I'l'l 1 ' I 'I'l'l -Environment: 5M Kl -350MV; -= 10 _ R.T. "-1


Kmax (KsiVin) da/dt (10"3in/hour) 5.20 (min) 6. 7. 8. 8.90 (max)

4.19 322.

2214. 2365. 2554.

RMS % Error

90.84

Figure 8.11.3.2.7 8-822

Condition/Ht: T651

I

Form: 1 in. Plate Specimen Thk: Specimen Type: DCB Specimen Width: Orientation: T—L Ao: Yield Strength: Kjscc: Ult. Strength: Ref: 85543

7079


4 10 40 100

t I ' I 'I'l'l 1 ' I 'I'l'l Environment: 5M Kl -450MV; -=J10

R.T.. 10

10

\ c

10

+-10 T3

.-1

10

10

10

-2

I I'I'I'I

I I I I HI ' I ' I 'I'

— 10

10 i

,.'§


4 10 40 100

10

10

10

10

10

o

4 10 Kmax (Ksivin)

0 100

3 o sz \ c

°10°

-M10

10

10

10

= I ' I'I'I'I I ' — Environment: 5M Kl _ (OC); R.T.

I'I'I'I J

-635MV —

— —

— —

— Y —

— / —

— I —

" I , I,I,I, I , I,I,I,

—

— 10

,0°J

-Jio >

^10"'

10


Kmax (KsiVin) da/dt (10_3in/hour) Kmax (KsiVin) da/dt (10"3in/hour) 6.10 (min) 7. 8. 9.

10. 13. 15.00 (max)

1.77 24.9

411. 1189. 1160. 1420. 1330.

RMS % Error

RMS % Error

34.08


7079 I Condition/Ht: T651 Form: 1 in. Plate Specimen Type: DCB Orientation: T-L Yield Strength: Ult. Strength:

Specimen Thk: Specimen Width: Ao: «iscc- Ref: 85543


1 4 10 40 100

b I ' I 'I'l'l—I ' I 'I'l'l - Environment: 5M Kl -800MV; — 10 _ R.T.

10'

101

10l

■o 10"

10"

10"

10" Al

Bffl-

[]

' I i I ill

— 10

J,01

10 o T3

-1 10

10'



RMS % Error


4 10 40 100

10"

-1 10

3 - — o 102 -

-M 10~3 _

a

10

10

10

='\ ' I 'I'l'l I ' I 'I'l'l a

- Environment: 5M Kl -850MV; — _ R.T. ~

— —

f —

= I —

—

I I I

II I

I I

II I

III I

i , I,I,I,

10'

— 10

o 1- 10 1 «4

- _•> -o 10

— 10~

— 10

-2,

■o


Kmax (KsiVin) da/dt (10"3in/hour) 8.50 (min) 9.

10. 13. 14.30 (max)

4.30 6.48

13.2 36.1 32.6

RMS * Error 14.47

Figure 8.11.3.2.7 (Continued)

8-824

1 7079 I— Condition/Ht: T651 Form: 1 in. Plate Specimen Thk: Specimen Type: DCB Specimen Width: Orientation: T-L Ao: Yield Strength: Kjscc: Ult. Strength: Ref: 85543


1 4 10 40 100 1 4 10 40 100

- Environment: 5M Kl -900MV; — io2 = I ' I 'I'l'l I ' I 'l'l'l -1

- Environment: 5M Kl -950MV; — io2

_ R.T _ R.T 10° 10°

— 1

10 — 1

10

10-1 - 10"'

0 v. 0 1- ^_^ 10 3 s—*\

10 3 L_ o l_ o 3 JC 3 JC

°10"2

\ c ,o-'|

°102

\ c -i E

10 £ BU

i^. ■^^ an ^—^ J_. m-3 -M 10~3

T3 -2"° "O -2-P \ 10 \ \ 10 > o o D o "° -4 _ TJ "°.«-* -o

10 10

-3 10

-3 10

—5 *~

.~-5 10 10

— -4 -4 — 10 10

r~ i IM 1 III ~ *.»-« ~ 1 III 1 III. in i i hi iiit m 1 i 1 i 1 Hi i i i 11ih

1 4 10 40 100 Kmax (KsiVin)

1 4 10 40 100 Kmax (KsiVin)

Kmax (KsiVin) da/dt (10_3in/hour) Kmax (KsiVin) da/dt (10"3in/hour)



7079 Condition/Ht: T651 Form: 1 in. Plate Specimen Type: DCB Orientation: T-L Yield Strength: Ult. Strength:


1 Kmax (MPaVin) (9 of 12)

4 10 40 100

b I ' I 'ITI 1 ' I'l'l'l ^ . Environment: 5M Kl -1000MV; — 10

L R.T -1

10"

10 -1

c

10"

10 -3

"O t \ o

10

10"

10" ' I I LL

a

■ i ■ i''i

10

o i-

10

10

4 10 Kmax (KsiVin)

40 1 ivin)

00


RMS % Error

Kmax (MPaVin) (1° of 12)

1 4 10 40 100

b I ■ I'l'l'l—I ' I 'ITI Environment: 3.4M KCU

L_ R-T. 10

-1 10

°10"2

-10

o T3

10

10

10

— 10

4 10 Kmax (KsiVin)

40 K ;iVin)

Kmax (KsiVin) da/dt (1Cr3in/hour) 4.10 (min) 5. 6. 7. 8. 9.

10. 13. 15.00 (max)

0.0813 1.63

35.8 327.

1082. 1614. 1688. 1775. 1586.

RMS % Error

38.53



Specimen Thk: Specimen Width: Ao: «Iscc: Ref: 85543

Kmax (MPaVin) (11

1 4 10 40 100

10

10

110°

^10

10

10

10

- I I I llllll I I I 'I'l'l -1

— Environment: 3.8M KBR; — _ R.T. -

: -3

^~ —

— i an —

— —

— in

- Q —

III 1

1 , 1,1,1, —

of 12)

10

10

2 »- 10 1 10-!

-=|l0 >

10

— 10


Kmax (MPaVin) (12

1 4 10 40 100

10

10

3 . — 10

c —

-M 10

\ a "° -2

10

10

10

- I ■ I'l'l'l I ' I 'I'l'l -1

- Environment: 8M NAI -450MV; — _ R.T. =

: —

—

~ f

~ 1 —

: / —

- I —

III 1

1 , 1,1,1, -=

of 12)

10

10

2 I- 10 1 -■I

— 10 \ o

10

-2 — 10

1 4 10 40 100 Kmax (Ksivih)

Kmax (KsiVin) da/dt (I0"3in/hour) Kmax (KsiVin) da/dt (10"3in/hour) 4.10 (min) 5. 6. 7. 8. 9.

10. 13. 16. 16.70 (max)

0.185 10.4

186. 960.

2009. 2556. 2686. 2869. 2766. 2832.

RMS % Error

RMS % Error

32.19


7079 Condition/Ht: T651 Environment: 3.5s NACL Specimen Type: DCB Orientation: S-L Yield Strength: Uit. Strength:


4 10 40 100 TUT

4 10 40 100

Kmax (KsiVin)

Kmax (KsiVin) da/dt (10"3in/hour) 2.40 (min) 3. 3. 4. 4. 5. 6. 7. 8. 9. 9.50 (max)

0.371 0.579 2.79 6.71

11.0 16.5 18.2 18.8 20.3 24.2 27.5

RMS % Error

37.03

Specimen Thk: 1 in. Specimen Width: 3.5 - 5 in. Ao: Kjscc» Ref: 84284;78313


1 4 10 40 100

I ' I 'I'l'l I ' I'l'l'l . — Form: 1.5 in. Plate 10

10

10

10

10

o


0 100

Kmax (KsiVin) da/dt (10"3in/hour) 3.70 (min) 4. 5. 6. 7. 8. 9.

10. 13.00 (max)

0.491 0.813 3.47

10.4 22.7 38.2 52.2 62.8 98.0

RMS % Error 8.08

Figure 8.11.3.2.8 8-828

1 7079 I— Condition/Ht: T651 Environment: 3.5SK NACL Specimen Thk: 1 in. Specimen Type: DCB Specimen Width: 3.5 — 5 in. Orientation: S-L Ao: Yield Strength: Kjscc: Ult. Strength: Ref: 84284;78313

Kmax (MPaVin) (3 of 3) Kmax (MPaVin) 1 4 10 40 100 1 4 10 40 100

- I ' I 'I'l'l I ' I 'ITI -1

— Form: 2 in. Plate — io2 = r Trvv\ i ' fiMM -1

io2

10° 10° — — 101

~!Z io1

ID"1 ~ ™^

- S"*\

io"1 ___ n£j _ — r 0 l- 0 L_

1_ J r 10 S L. 10 S

3 , - T JO 3 JO °10"2

c

A

'°"i in/h

o

,o-l - 1 w J _

—3 ^-^ -u id"3 P , *J 10 -+-» TJ - / — -2"° T> -2.P \ = i/

10 \ \ 10 > O DP

_. o o o "° -4 r X> "°^-4 TJ

10 m 10 -3

10 -3

10

—5 ^«.-5 10

-4 10

-4

— 10 10

10"8 ~ 1 ■ 1,1,1, I , l.l.h - 10"* ~ 1 , l.l.l, I , I,I,I, -

1 4 10 40 100 1 4 10 40 100 Kmax (KsiVin) Kmax (Ksivin)

Kmax (KsiVin) da/dt (10"3in/hour) Kmax (KsiVin) da/dt (10"3in/hour) 2.80 (min) 0.164 3. 0.218 4. 0.430 4. 0.799 5. 2.32 6. 5.51 7. 11.1 8. 19.4 9. 30.6

10. 44.0 13. 88.1 16. 117. 18.50 (max) 120.

RMS * RMS % Error Error

15.26


^ 7079 Condition/Ht: T651+ 50HR AT 320F Form: 1 in. Plate Specimen Type: DCB Orientation: T-L Yield Strength: Ult. Strength:

Specimen Thk: Specimen Width: Ac-: Klscc: Ref: 85543

Kmax (MPaVin) ° of 1>

4 10 40 100

10

-1 10

°102

\ _ c t—

-^10

X» 10

10

10

ET'1 I'l'l'l I ' l'l'l'l -1

— Environment: R.T. ~

f —

—

—

: 9 -=

-=

III 1 1 , 1,1,1, —

10

,0°J A

-2, - 10'\ O

XI

— 10

10


Kmax (KsiVin) da/dt (10"3in/hour) 9.10 (min)

10. 13. 16. 20. 22.00 (max)

0.177 0.398

39.7 647. 815. 902.

RMS % Error

23.91

Kmax (MPaVin) 1 4 10 40 100

10

10

10

c —

10

o X"

10

10

10

- I ' I'l'l'l I ' I 'I'l'l -1

— —

— —

— —

— —

■~—

-=

III 1 1 ,1,1,1,

-=

10

o i- 10 1 A 10

— 10

o xi

10


Kmax (KsiVin) da/dt (10~3in/hour)

RMS % Error

Figure 8.11.3.2.9 8-830

7079 Condition/Ht: T651+500HR AT 320F Form: 1 in. Plate Specimen Type: DCB Orientation: T-L Yield Strength: Ult. Strength:

Specimen Thk: Specimen Width: Ac-: Kjscc: Ref: 85543


4 10 40 100

10

10

Jio"2

c r~

-^10

D

10

10

10

-5

- I ' I 'I'I'I I ' I 'I'I'I a — Environment: R.T. —

— r —

— f —

:

i —

— J —

: —

III I

i, i ,i,i. —

10

— 10

Kmax (MPaVin) 1 4 10 40 100

,0'1

- _,-a 10

10

10

a


10

10"

°10" \ C

-M 10"

o 10

10

10

I II

I

I III

I

— —

: —

— —

— —

— —

Ill I

I , 1.1,1. —

10

10

o k- 10 §

-I

10

— 10


Kmax (KsiVin) da/dt (10"3in/hour) Kmax (KsiVin) da/dt (10"3in/hour) 15.90 (min) 16. 20. 25. 29.30 (max)

0.149 0.152

52.8 600. 514.

RMS % Error

26.67

RMS % Error

Figure 8.11.3.2.10

8-831

7079

CO cc iH iH

od

3

h Ää'ÖjS öSS^ SSäRi 03 SHwK eo SSO* CO ssaoi; .9 S8SCSS sstsas CO CM tw rH eo CO cc «55 1»: eo

00 1 eo CO m 3swSs

CD CD CO nil

"8 5 « a $:*»:■ ::'.«b i- c- CO OS CO CO CO

§P 1» « CO 05 $

CO OS 03

HP i-* vT*

Tes

t T

ime

(min

) * + • •■'*'> !

1 1 I !

i i ■ II i

t i

>*:*:+:*: *

^^ . s £s «> 9 •? N .*»•. eo e» CO üol *g

' fr- ::-*tr t* 05

^^ :-:i::::::::::: :::::::::::X;::

ei»

■ r«

i xB**>

■ ■ I

© eo

<N

SS**!:

CM

OS ■>-♦

g JS © ^ x-x*x*: XvX-X*: t- ) ■ :::::x-:+x-:

2-S ■:■:•:*:*:■:■:

1 ■:■:■:■:•:♦:-:-: * ■x*x+x- * l o : ■ l^lsi

ü

I-* ^ *n to »ft 2£.S *H ■ft. . <"* 1-4 sA's iH c? CN <M

fcH -

.M •2 c ^**S »^ IÄ 1-1

: r* i-l T* »H 1-*

ft ®

SS 9

H

J3 Ä a *.S •* III TC yf ia <N IN C»

O 9 £~ a

CD

•p* 00

1ÜI mm ii mm m o B- EH Ü U:

9 Ssgäs mm W& a P u a &

■

*3 Hi « III!

OS

is 1 ■*■=

■ # ■■ ■■'

£ 3S& 2 * £

u a

1

Us CO

w s W5 eo' a

83x9!?

Yie

ld

Str

(K

si)

■ i I

CO CD

CO

CO CO

9 h j J 03 CO

Tes

t T

emp

(°F

) H cH « «

"ö S o S * 0

PM fr< fcfe

"fi-S 0 9

1* S ■*»

CO H CD

O 9 OB

8-832

7079 (ALCLAD)

rf

US

Ed

2

5> fee

Ls •** CD

5> fco

JS

I#

QC

H M

B? o

I 's <r 5 5«

I: ~ • is«

ii*

H J

feie as

D Q

Gk

E*

O fcu

8-833

7079 (ALCLAD)

O Ü ©j oj ©j

00

S

« CO eo n CO CO CO eo CO CO

£ N N OJ OJ OJ OJ OJ OJ 52 OJ © © s GO 00 00 00 CO © 00 O0 © ©

e 5 CO R CO CO s CO s CO s CO t> 5 CO i P - p 5 © © © ©

Q

2> t 1 . i

fen

rf *1 I j 1 I

1» • * • * « • to

• • oa

• * ©

# ©

* 8

* ©

# h • o

tit- i to t- CO © © c- v © Ol M © © o

to to 10 lO CO © c- © © © ** r-

1» © ; eo

a A : OJ

©" to

I ©

rf

* *

D' ::':>BS s

• to

* CO

* OJ eo

© * © CM

d to

• © to

* to © •0"

• © © © to

» © to

to

* © OJ

to

Iß ©

© © ©

©

©

* © © © "9"

© OJ

CO

© CD

©

* CO © to

^ © O © O © s © o o su t- CO o V > © c- «i

8 8 OS

?■':■»

§ ftiO!-

OS co CO

© CO

© CO

co CO

OJ CO CO eo © CO

to OJ CO

OJ ©

to ©

« n CO

to eo ©

■ ;. j • ; ! 1 ;. j i : j i j 1 i ! o «

: 63 o Bs»

■■•■;«.

to © co

©

s ©

© 8 © CO

8 c- 8 8 § OJ

©

8 ©

ss © ©

OJ

8 © OJ

0-

8 CO

S3

1 © O o © *"* OJ w* OJ OJ OJ OJ OJ OJ OJ

" CM OJ OJ

si« to t- ■w 00 CO

© OJ s OJ

to to to s 8

©

o 3 s o

s O eo 1 i 1

I is. ■KJ.

o © © © - ~ — ** ** ~" ~ ** *- *■" ~* •"" ^* w*

2 S ° 05

0» ©

s ©

8 ©

8 8 8 1 © LO ©

© to o

©

8 © O

© ©

3 ©

s ©

8 ©

8 OJ

8 01

8

w 0.

£ = MM. © o © o © © o O o o o © © © O © © o

£ ~ 0 0 © © © © o © © o 9 © 9 9 g

i ■* © 8 g 8 8 8 8 8 8 8 ©* 8 8 s 8 Ö s S 05 £ w 0J 04 04 04 CO CO CO eo CO CO © © to « CO eo «

YIE

LD

ST

R

(K«l

) t- O* t- OJ N 04 o © o to to © CO OJ 81 cs OJ

00 CD

00 (0

CO CD

flO ©

CO ©

CO to

CO © © «0

o- ©

© ©

© © © ©

CO ©

eo © © ©

° ~. J J J J J

i H H £ fi 61"

S s £ i H H H -w © gg& e S a « «

6 R* 8 s « 8 3 S 5 8 8 8 - - s 8 8 8 8 8 £ = O © o © o O o O O o © o o © © © O O

a. o S 1 3 i i 1

c 0 03 CO CO

si 5 8 8 © g 8

8-834

7079 (ALCLAD)

as Ed

« CO eo CO CO CO eo eo CM CN CN CN CN

8 CD CO

GO GO CO 00 CO CO CO CO

S eO

< OS 0) o> Cl O) en G3 cn a

2> 5 Ed feQ

rf 4 ! i

IS CO r*

s£- «3 CN V CO CO

s " GO GO CO CO Ol cn cn

CL O.

2> go

GO

Ö CO

©

A CM

CO GO

M

rf j* Q

• co

» to to

• CO

CO

• en lO

CD iO CO CO

s f to (O to us

Ä X ^ ■ o o © © © © © ©

g£J TT CO ©

i 88

OK

•■«

z w

CN co

CN CO eo

eo CO CO

CO CO

eN CO

CN CO

SÄ* I ; • • ■ 0 • ■O

Q

g 3-> - SS« Eh

:;*W: fr- V to CO Cl to

si 1 «»;■

ss SB s CN CO CD ©

g CN CM CN CN CN CN CN CN

| Bg S = «

SSO? O © 8

O fr- © © 8

© 8

O to

g A'. z Id« fr- r- ■w

P ■■a s g g s s s cn en

* o © o o © o © © ©

s Cd EM *■■> o o o © o © o ©

a. §i* 8 s 8 8 s a a a tc it w eo eo CO CO eo eo eo CO

els ^- w* CO eo eo CO v -«r ED CO CO cn en to ©

CO .j CO to ©

Cd S> a _3

fe° E e^

6&B 9" Tf

eg* G O GO

6 D

B* 8 s 8 8 8 8 cn en

£~ O o o © O © © ©

Q Q Et! fi ** £

0 - b

J 1 as

0 Q «

§1 H 5

h s P

u S

8-835

7080

E B

I 3>

M

rf3Ü

00 • Si f 3 6

Z, g x w Q

U

CO Sen

■ *

9gi

a. o 6 j £

BS|S fc

o Q

0.

Hi

£

z o

8-836

7149

iH CO

a 3

H

s

o

o

•c o e I 3) a

CO

CO "8 > COQ

C S S

-e >

c

I*

•a > so a

e a £

CO

6

Si

00 6

o o

«3 cc

H

Ed

8-837

7149

CM O

•

• CO

g

0

u

■a

■

• •

O

|

a o

85

5 ^

MB

!

1 m

t

Si»*

2 O CO D B5

8-838

7149

CM O

t

■

CD

■ It (S

M

GO

H

9

HIUtliiiimMIIM

in

C5

s

;•■••«

• is Ä

%

§ o

1

K 5 o

IÜ

8-839

7149

CM O

!

i u

■a

01

s

II CO CO

>8ias

ma

00

i$

O

ü

i

H

O

o

2 O § BS

8-840

7149

CM O

ii

CD cd

■p ili 111 o f« ■ mmm 0$

§111

lii

I «a I A

Ha

WMUUUNUUi

8

i

H • •

O

s o

o «i

o 55 «

«

8-841

7149

94

GO

w

OS £ s s s 8 a £

u o U u u § Z 2 z z z 2

B S s s S S CO

5 A CB en O)

o

e

is CO Ö

CO d

4 to

CN

* ^ to CO fr- rfan co 00 ■*r to

■V ^ •v CO CO CO

CD OS 10 s s fe $ s o o o o o o

e

HA

CK

N

GT

H

(in.

) A

CM lO 00 CO

8 3 s s 3 5

o

BS

z a « E-" E- E- E- H E-

at U U o o Ü U H D

es Z

Ed 6.

TH

ICK

(i

n.)

B s s 8 i 8 8

s ■x 04 *-( M 1-* 8 s § a 8 8

§ CN « CN CN « CN

9pi CO CO CO fr- t- fr- sis CO

CO to CO

CO CO CO to

CO CO

Cö CG E-> J

§S° J 1-

i^£ E^ fri eg^ « «

B? S 8 8 8 8 8

B s Q

u* « CO CO CO CO CO

§ s c S

C

C 0 2

■a Cd

B "Jc

z o & iß to

e 0 u

8-842


8-843

F \ 7149 I Condition/Ht: T73511 Form: 3 in. Extrusion Specimen Type: CT Orientation: L-T Stress Ratio: 0.1 Environment: LAB AIR; RT

AK (MPaVin) 4 10 40 100

10

10

Ü

c _

2 10"5

-o _K — 10

10

10

— Frequency: 10. Hz

., a

— —

—

—

"■■"■ .^H* —

*™—

—

- i , MJ, 1 , 1:1,1. —

(1 of 2)

10

10

io"2£

10 Ê

-z.

-5 10

— 10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (1CT6in/cycle) 4.82 (min) 5. 6. 7. 8. 9.

10. 13. 16. 20. 25. 27.96 (max)

1.48 1.61 2.43 3.42 4.63 6.15 8.05

17.0 30.7 54.4

126. 231.

RMS % Error

8.09


i 1 1 , 1

0. .5 .8 1.25 2.

Yield Strength: 66.3 ksi Ult. Strength: 76.4 ksi Specimen Thk: 1.003 - 1.004 in. Specimen Width: 4.5 in. Ref: NC002

AK (MPaVin) 1 4 10 40 100

>- I ' I Tl'l 1 ' I ' I MM

(2 of 2)

10

-3 10

_0J

o o 10

10

-o _« - 10

10

10

Frequency: 20. Hz

■ I ■ III! I I I LL

— 10

— 10

— 10 -2o

o

10 E

10

10

10

o

4 10 40 100

AK (KsiVin)


1.14 1.65 2.82

15.3

RMS X Error 31.83


—i r- .5 .8 1.25

Figure 8.14.3.1.1 8-844

Condition/Ht: T73511 Form: 3 in. Extrusion Specimen Type: CT Orientation: L—T Frequency: 1 — 10 Hz Environment: S.S.W.; RT

7149 R

Yield Strength: 66.3 ksi Ult. Strength: 76.4 ksi Specimen Thk: 1.004 in. Specimen Width: 4.5 in. Ref: NC002

AK (MPaVin) 4 10 40 100

(1 of 1)

10

-3 10

o ü 10 \ c _

-Z. 10

10

10

10 .-8

- I 'I 'I'l'l I ' I 'I'l'l J.

— Stress Ratio: 0.1 — — - — — — — — - — — — — — - — — — — — Jf - — ss —

— s "^

— — — — — - — — — —

- I , I,I,I, I 1 I 1 I ill =

10

10*& o \

-3 | 10 E

AK (MPaVin) 4 10 40 100

Jio > XI

-5 10

10

4 10 40 100 AK (KsiVin)

10

10

u O-10-4

c _

■z. 10

10

10 -7

10 .-8

I II

I

I III

I-

— —

— -=

— -=

— -=

: -=

III I

I , I,I,I, —

10

—

Ü

,.-1 Jio >

T3

— 10

-6 -A 10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (I0"6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 4.39 (min) 0.835 5. 1.68 6. 4.00 7. 7.57 8. 12.3 9. 17.9

10. 24.3 13. 46.8 16. 81.9 20. 158. 25. 265. 26.48 (max) 319.

RMS % Error 14.40

Life Prediction Ratio Summary o □

i 1 1 1 1—

0. .5 .8 1.25 2.

RMS % Error


i 1 1 1—

0. .5 .8 1.25 2.

Figure 8.14.3.1.2 8-845

F 1 7149 Condition/Ht: T73511 Form: 3 in. Extrusion Specimen Type: CT Orientation: T-L Stress Ratio: 0.1 Environment: LAB AIR; RT

— Frequency: 10. Hz

-2 10

10

Ü

10

10

10

,-s

10 .-8

AK (MPaVin) 4 10 40 100

THTl 1 ' I M'l'l

(1 of 3)

7

11 in i . i.i.i

— 10

10

io"2£ o

-3 | 10 E

10

10

10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (1CT6in/cycle) 5.28 (min) 6. 7. 8. 9.

10. 13. 16. 20. 22.13 (max)

2.91 3.30 4.60 6.70 9.46

12.6 25.5 58.9

167. 628.

RMS % Error

6.57


0. .5 .8 1.25


1

10

10

_OJ — o _

o^10-4

c _

10 -5

TJ —

10

10

10

AK (MPaVin) 4 10 40 100

I ' I 'l'l'l ^

(2 of 3)

- i ' i M'l'i r — Frequency: 13. Hz

7- i 111HI _LU

— 10

10

-3 I 10 E

10

10

10

o X!

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (1CT6in/cycle) 7.40 (min) 8. 9.

10. 13. 16. 20. 21.07 (max)

6.51 7.16 9.23

12.4 26.0 43.8 94.9

117.

RMS % Error

6.01


2. —i 1 1—

.5 .8 1.25

Figure 8.14.3.1.3 8-846

Condition/Ht: T73511 Form: 3 in. Extrusion Specimen Type: CT Orientation: T-L Stress Ratio: 0.1 Environment: LAB AIR; RT

7149 F


AK (MPaVin) 4 10 40 100

(3 of 3)

10

10

O

îo"4

c _

10

"° -6 10

10

10

— Frequency: 20. Hz ~=

— —

— —

: § ■

—

/

¥ —

a —

III I

I , I,I,I,

—

10

io"2°

,0*1

~ _x~0 10

— 10

— 10

AK (MPaVin) 4 10 40 100

-2

O

4 10 40 100 AK (KsiVin)

10

10

o

ü 10 \ c _

Z 10

-o _K I— 10

10

10 .-8

- I I I 'I'l'l I ' I 'I'l'l -1

— -=

— —

^~ -=

— —

z —

1 1 1 1 1 ill 1 , l,l,ll -=

— 10

— 10

_0

io"2 ö o

,o-I

— 10

10

— 10

o

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (10'6in/cycle) 4.06 (min) 5. 6. 7. 8. 9.

10. 13. 13.33 (max)

0.987 1.91 2.79 4.06 5.77 7.38 8.89

20.9 20.9

RMS % Error

6.72


i 1 1 1 1—

0. .5 .8 1.25 2.

RMS % Error


i 1 1 1 1—

0. .5 .8 1.25 2.


R I 7U9 I Condition/Ht: T73511 Form: 3 in. Extrusion Specimen Type: CT Orientation: T-L Frequency: 1 — 10 Hz Environment: S.S.W.; RT

AK (MPaVin) 4 10 40 100

(1 of 1)

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) 3.59 (min) 4. 5. 6. 7. 8. 9.

10. 13. 16. 20. 22.13 (max)

1.29 1.48 2.77 5.61

10.4 16.6 23.0 29.3 54.9

109. 212. 357.

RMS % Error

8.63


0. .5 .8 1.25


10 -2

--3 10

J2 —

o _ SMo-4

c _

10

\ o "O -6

10

10

10

AK (MPaVin) 4 10 40 100

1—i I i I'l'l =q I I M MM

i I i Ii li u ' I I I III

10

10

io"2£ o

-3 I 10 E

10

10

o ■D

— 10

4 10 40 100

AK (KsiVin)


RMS % Error


i 1—-i 1 1

0. .5 .8 1.25 2.

Figure 8.14.3.1.4 8-848

7150

o

to

CO

a

H

i

I

I

a S3

■

• •

o 5

I o

m

m

1!

lift*

63

8-849

7150

O

IO lH GO

w

CO CO

B CO fa o CO

E

w H S. o o

o

fa

■a

■ iJ • •

O

s o

<* i^ **

«■

s IB

1111111 — *>:*:*:■:

äSSSKSpS

31 >

■*

CO o

*§ li S

iiii; o ill»

<

CD C- C-*

IO t-"

co c-'

c- CO •* CO

1-1

en IO

e»

c- o CO

CM O

lllllill » OJ to t-

en f-(

t- C0 CD CO

IO CD 5 o * IO O o o CM CD N CO CM CO

«o CO o

OS o (-4 IO IO CD

CO C~ CO

CO

« o o o o O O o o o

<y^. J3 N o o IO o o

ml oa N CM

& wi «M •»* ■* •«* CO — _ ■* CO

O a o o o o o o o o o

H £ B| H o 53

og 5 D

OS

..«■fa- 63

&

*-■ CM ipi op •-4

IO f- t-

1*"

8-850

Lü > a: o UJ o

V) ÜJ

L 1 I 1 I 1

o in c r- «H

r^ o

j£ _ gNZuu2ii_(nl=N

uooooinmio«-ao • —.OT-oocoT-oor^NO •7 0) ~~ oinwini-ooooo Jj"- •üiricsVoddodd

S o o E S. ii o m C •« * c o n w

V JZ u

i-5 g ..

a ^ .c = OLO I- S E § c c c » o a o ° E E E

—

o *5 "0 "ü Q. 0 a o S Q. o. o. Fui C/J </> _

"" □ _

5 |c N > o D i- «Q * s □a

ndltl

on/H

t im

: Pl

ate

: 12

2.15

fe

renc

e:

C — n Da

a D D

_

O O ü O O U_ * QC

l I I | I i i | i i ~

o cd

-H C

Q D

o

_o

0> c

ü

>

u o

° 5

o

ü

o « o

o o

o o CM

a o

(H!A!SX) *X Aisu9;u| ss9j;s

Figure 8.15.2.3.1 8-851

o m

i.?

LJ >

Z> O

LÜ O

< I—

in LJ en

c — o ..

1=1 ■*- s

l| o "o °- S

OJ c OJ —

o o o

m CM a «- C9 C .. J* -C

?! »- 3s c c €0 €) E E o o eg o O. Q. to to

in CD o

a

CN v x •

o o o »

c .o •f n o cCW3 »- = © — ,_ *- gN2UU2U.U|=N ôooommm*-oo „OT-CDCÄ^-OOr^CMO oinroinr-ooooo üiricN^öddddo

Ct3

t.

T 1 1 1 1 1 1 1 1 r-***

_o c n ^-^

M- M-

™ 0 D <

o — « <*

D> C o _l

_*

« u

n L_ o a> >

-H» o

_o CN M-;

LÜ

c — • ^—

d) O*

__o « c a

-C O

.o « o

o o

a o CN

a o

(UI/US>j) «>i A}JSU9}U| SSSJ^S

Figure 8.15.2.3.2 8-852

o in

Lü >

Z) O

L±J O

Lü

c a « 5 c £

ao E ,. u a

E ö o °- S

oa . ro c o — «i m o o o Hoi CO w- 9 C ..

II c c a « E E o "5 o e a. a.

C/l (/>

c .2 •I o a. Ec o»3 i_ c «_._ k.

üOOOOlfllflWr-00 _o»-coo>T-oor^cô ointoin«-ooooo |ifl(M<-000000

o x: u

_o

.o

in C

CO o

X 0» >D 00 Ö

I c« 2 o o o o O U- * 0£

_o

D

—i 1 1 1 1 1 r o o o o IO CM

'n0| T—r

©

<

c

o o Ü

a; #> '■+■> u oj

«4-

_o c o o

a a

(HAis>i) W>1 *MSU3*u| SSSJ}S

Figure 8.15.2.3.3

8-853

Lü >

=) o u ü <

(/) Lü

o 10 ^— r^

• ■~

n . .10 c

jj «* L. o o U M C 03

tatlo

n:

ness

: :

12.0

H

U a t?2 Q.O H- * E o u

c c c 0 O O E E E

n o o o n a o u >, Q. Q. OL P www

.a CD

C .O ■*■•

•> o CL EC 0»3 »_ C ©_,_ i_ 0N2UU21LUPN uooooiniflin«-oo _o»-coo><i-eor*cMO oinroin*-ooooo •încN^do'dddd

v u

m •—

o ö

■3£

■ •

c

o o

> -H» o a>

•+-

LÜ

c

0)

^ ö x: O

.o

T 1 r T r a°Dn_

T r^"^- o o

a o

O o

.q d

(uiA!S>i) *>i >fysu9}U| ss9J^s

Figure 8.15.2.3.4

8-854

o in

Ld >

O

Ld O

< h-

Ld 01

OB . <0 C o — w CN

°q n oi co «- 9 C ..

II c c a © E E

a o o "5 a. a o v >; a. a. o.

o ..

• -a

o • 8.5 11

.o

c .o t> o Q. EC 0>3 k. C ©_ i» 0N2UU2L.tf)|=N

ÔOOOiOlOiflr-oO _o T-oa o>T-oors. NO oioniOT-ooooo •j|in tN^dddddd v

JZ u

IQ

i-

00 o

Q 0-

a

to o

= r ID C c c .. «J- o o a o

'35 c a)

Ü

>

.o O

a ü

°an. T 1 1 1 1 1 1 1 1

O O

o o CN

O O

(w/Ms>0 *>1 Alsuo;u| ss9J^s

Figure 8.15.2.3.5

8-855

o to

Ld > a: o Lü o < i—

en Ld

c o

•-5 u « Q.O E ^

ö ö 8- S

o CM

d o o • • •

a CM CO T- « c ..

5 ■o 5

c c O V E E o "5 o « O. Q. (/I (/)

L£ oo 5g

in rs.

CD

M o CN O

? E j> o o o •» O U. * OS

a +■■ ■ 3. a.

c .o g± n o

0N2UU2LU|=N uooooioinifl«-ao _a»-coo>T-oor^cMo oianiflT-ooooo £iri cMVdddddd

t>

f

T 1 1 r110*- o o

a o

T 1 I 1 1 1 o a CM

.o CO

,o c m VwX

M- M- © D <

o

u> c a> _j

_* q n K) i_ o

a) >

•+-> o

o a) CM «+T

LÜ

C

0) Ö»

O C « D _C o

.o o

Figure 8.15.2.3.6 8-856

O in

Ld >

O

UJ O Z <

(n

O ..

o w ao

ii

o — « 10 o *-

q n oi c .. je .c

£3

C JO

« o a. aN2UU2b.(ApN LO

c c a o

_ E E ä o o *5 o. a a t> >; a. a. a. Pen en (A

10 ao o

X • N?

o 0. «J J»

S *^ s s .0

o o o o

üO OO OlO If) 10 »-00 —O »-00 0>«- «Oh* NO o in ro in 1-00000 •HinCMoOOOOOO o u

.0 «3

W

_o

a a

_o

a a

T 1 r l 1 r T r a^

<

.0

C OJ

O

>

o OJ

&J

OJ

x: O

o o 10

o o CM

(HA!s>0 b>l îsuoûi SSSJ^S

Figure 8.15.2.3.7 8-857

o to

Lü >

O

Ld O z: <

c>2

UJ

o .. II o •

ll *o' o s. s

m c

^ GO 3 O o • • t CO M a «- 9 je £ —

c c o o E E

»MB

u o a c a. Q.

W (/)

in oo o

ca

c o

a a <o ©

? i ..A o o u o O IE * DT

c o •) o a. ECj?=J üuzfSöpN ôoooioinia<-ao _ o «- oo o> «- ao Is* N O oin«ior-ooooo .giriN^dddddd o

o o

T—i—i—i—i—i—i—r ° 9 o o CM *-

a nPan-

T |M"T

.O 03

o C m N—•

H- «4- 0 D <

o « ■+-• U> C V

__l

^ o o K) i_

O

aj >

-+-» o q <N M-

LÜ

c • "^

a> D>

O c « D _C O

.0 « o

(UIyVIS>i) «>i A}ISUÛ| ssaj^s

Figure 8.15.2.3.8 8-858

O

LU >

ID O

LU Ü

< I— in in Ld 01

00 C

T5 o ..

o _2 as

o o o

• « i a CM n «- o c .. -* =5 ^=5

c c o o E E

«"Sou Q. o a 0 Flfl f/l (/)

in oo o

x * OS

„or» §5" CM u

32 E © o o u t)

o EC 0»3 k. C »_._ i_ QN2UU2L.(A|=N üOOOÖlfl«-(OON _ IO T- iO T- O «D ■+ CM o OrfONOOOOO £cdcMCMdddddd

o u

*fc

% T r

.a as

q C in v-»»

«+• «+- 0 o

< o c

-M O» C V

_o u

.O

CM

O

#>

o

0)

Uo C

o

o o o

CM

(HA!s>0 ">l *HSU91UI SS9J1S

Figure 8.15.2.3.9 8-859

o in

Ld >

Z) Ü

ÜJ o <

(/)

(/) Ld 01

S"~ T. in o *- o n ci co «- o c ..

IS c c o o EE

Ö ÜU u Q. o m « st O. Q. Q.

c5 o ..

IO

o

Sons

o o o o o u. * IK

c

•> o n EC 0»3 1_ C o_ i_

ÜOOO«Jifl»-(0ON _«T-IO T-O »■* NO Dr+ONOOOOO ^(dcJMdciddod v

—i—i—i—r ° 9 o o

T r T r

.o

q C in • —

x-x

«4- H- 0

O <

o -M a» c 0 _j

.* o o

c o IO l_ o <D >

-H» o q <N S-;

LÜ

c

V o»

O c « o c~ o

a o

.a « a

(UI/US>|) «>j A}|SU9}U| ss9j;s

Figure 8.15.2.3.10 8-860

o in

Ld > 01

o Lü Ü

C/) C/) Ld 01

*-3 a •

l| Ö u °- S

E2 • o c o —

a «- o

• ■ i CO W a «- 0 C .. .* f Ig c c a © E E

*o "5 o o Q. a. (/I (/)

c o £ I» O a. EC 0>3 u C o„ u 0N2UU2LU|=N uOOO(Dlfl<-(DON _ia «-in «-a CD<4-CMO Or-tONOOOOO |(0NNOOOOOO o .c u

in co o

a x • \ a m ö

^ if« £ o o o o O Ü. * £K

.a CO

Da

*b

T r 1—T

.o C n *s

M- M- Q o <

.o c SZ

o> C V _l

_* O «

o K) L_ o

a) >

-M o

O C4 J*-

ÜJ

o

o o IO

a o es

a a

a o

(iuA!s>0 "X *Hsuoiu| SSSJ^S

Figure 8.15.2.3.11 8-861

o m

bJ > en z> o

LJJ o < I— tn in Ld

00 . o c o — w * °o «CM CO *- o

I- 35 c c <D O E E

ö *o "o "ü Q. o o o «r Q. Q. Q. Pc/i oi </>

c —' o ..

1=1 u • ao

in ao o

f* o XI

a

o o

a o m

j: to C § .. Ä a o u o

c o » o EC 0»3 L. C ■>_ i_ QN2UU2LMPN |__ ÜOOOOOOOOO _rs. COM ^-es oo-*-* w ot-nooooooi- •jjcdcMcModdddd » sz u

T 1 r i 1 r T 1 F-

.o ad

c m • ■»

^-^ H- M- 

-H» o a CM M—

LJ

O

.a d

o o a a CM

a o

(u«A!s>0 ">l *HSU91UI ssgj^s

Figure 8.15.2.3.12 8-862

o 10

LÜ >

Z) O

LU Ü Z <

(/) if) Ld a:

B5 o ..

a 5

o •

o —

• « * a CM ei «- e c ..

II o o E E

ö o o o n n m n >; Q. Q. OL P</1 (/) (/)

in CO o

IcSfi c c •• t o o u o O U. * OS

c o

AH» ;»■»

•» o Q. EC 0>3 i_ C B_aa_ L.

0N2UUlL(flpN üooooooppo __r* «DM *-CM DO* *<N DrlOOOOOOOr" •|C0CMCNOOOOOO

V

□ □

T 1 r T 1 r T r ±r

CO

.q c in *s

M- M- 0 D <

o •

u> c 

-H» u

O Ol **-

LÜ

#C

V D>

o C D

o

o o n CM

(u"A!s>0 ">1 ^|suaû| ssaj^s

Figure 8.15.2.3.13 8-863

i_ ( D I n i ■s.

• c ■""

T O — il««) c Q »- o "5 c 0

tatlo

n:

nesa

: i

: 1

2.0

Lü > Ti

pact

O

rien

Thic

k W

idth

Cd o u c c c o 0 e

Z) E E E o 0

It *ö "ü 73 0 O «

>, Q. D. O. p (/J W C/l LU O z <

M

r- CO CO UJ on

Jo .

P: i- If s • • "5 5

■*■> «. ^ Q X 0 \ ■s- 8 c o -a

Et " CD g

f GO £ c c c t .. «ff o QUO UIL^Q:

.o 03

C JO f> 9) o EC 0>3 k. C o_._ t_ 0N2üU2LWFN üOOOOOOOOO __ |s* CO CM r- CM DO ■* ■* CM OT-IOOOOOOOI-

•äcöcMCMododdo

■5 c

o

.o ■

_o ■ «

in

_o CM

C

o o o

> ■+■> u *+- a

_ t-

_o

D

c o

JZ Ü

T—i—i—| 1—i—i 1—r -r^ 3 O O lO

O O CM

O O

(y!A!s>0 dx *nsusiui ssgj^s

Figure 8.15.2.3.14 8-864

o

Ld >

Z) o L±J O z <

C/) Lü

o .. c o

o <g |5 l|

o o a CM co «- 9 C -.

II E E

c .o ■F» n o EC 0»3 l_ C „._ ,_ ON2UU2IL(0|=N uooonoo)Mioo _»-OI*30T-IDCDCM»- OOfNOOOOOt" £ to CM c4dddddd o

JC U

Ö u u u Q. O O iJ >: Q. a. a.

10 oo o

a

5w a a git

o o - °s o o o o

m

□

a-

03

_o c in v—x

s- M- "" 0 D <

n ■+ -M

u> c o

_J

_* o n

ft L_ ü u >

-M O

_o CM M-

LJJ

c ■■

f HMB

<D U*

• c o

_c ü

-I—I—I—I—I—I—I—I—I—I »I o o a a o o o a

Figure 8.15.2.3.15

8-865

o

ÜJ >

Z> O

LU Ü

(X.

t c — o ..

•I H| a • 8.5 l| Ö o a- S

°o öoi a *- 0 c ••

J£ JC

II c c a i> E E

"o *ö o u a. a. W (A

in GO o

a X • ^. ^"J ____ •• > O * B

o o o o

.o CD

c .o Ä n o

QN2UU2lLlflpN UooonooNino OOi-NOOOOOr; ij<de<Jc46o'dd66 v o

o o

-° r-

_o

C7> C

O

Ü

>

.o c4

u 03

«tb

T r T 1 1 1 1 r

SZ o

o « o o o a o

CM

a o

(HA!S>1) "X /fySUÛ| SS8J}S

Figure 8.15.2.3.16 8-866


8-867

R i 7150 I Condition/Ht: T651 Form: 1 in. Plate Specimen Type: WOL Orientation: L-T Frequency: 25 Hz Environment: H.H.A.; RT

1 AK (MPaVin)

4 10 40 100 1—i I i I MM—

(1 of 1)

- i ' i M'l'i r — Stress Ratio: 0.33 — 10

1 2fc 4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) 1.85 (min) 2. 2.5 3. 3.5 4. 5. 6. 7. 8. 9.

10. 13. 16. 20. 20.66 (max)

0.0208 0.0313 0.105 0.286 0.654 1.29 3.64 7.38

11.8 16.3 20.6 24.8 39.9 78.9

199. 205.

RMS % Error 31.87


0. -i 1 1—

.5 .8 1.25 —i-'

2.

Yield Strength: Ult. Strength: Specimen Thk: 0.249 Specimen Width: 2.55 Ref: AL014

0.253 in. 2.554 in.

10

10

-2

jD — CJ _

^10"4

£ — -5

10 ■a —

10

10

10

AK (MPaVin) 4 10 40 100

I ' I 'I'l'l ^ {=—[—i I i Mil rv

■ MINI ■ I i I ill

10

10

io"2£ - Ü

— 10 E

-i10 o

— 10

-6 10

4 10 40 100

AK (KsiVin)


RMS % Error


i 1 1 1

0. .5 .8 1.25 —i-'

2.

Figure 8.15.3.1.1 8-868

7150 Condition/Ht: T7751 Form: 1.12 - 1.25 in. Plate Specimen Type: CT Orientation: L—T Frequency: 5 Hz Environment: LAB AIR; RT

R

Yield Strength: 81 - 82.6 ksi Ult. Strength: Specimen Thk: 0.499 - 0.5 in. Specimen Width: 2.002 - 2.003 in Ref: DA008

AK (MPaVin) 4 10 40 100

(1 of 2)

10

10

ü

6ô-+

-5 10

"O _e — 10

10

10

-7

- I I I .Jin I . I«I■ I>l -1 — Stress Ratio: 0.1 —

_ —

: —

— —

mcF

—

Jm/y n

—

- f ,1,1,1, 1 ,1,1,1, —

— 10

io~2 v o

AK (MPaVin) 1 4 10 40 100

(2 of 2)

—O — 10 E

10

10

o

— 10

4 10 40 100

AK (KsiVin)

10

10

.2 —

ü

o 10 c _

Z 10

"a _B|— 10

10

10

- I ' I M'l'l I ' I M'l'l a


— -=

: -=

— —

— ® M -=

— iJp

-=

~ I , I,I,I, I , I,I,I, -=

— 10



-5 — 10

— 10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 2.08 (min) 2.5 3. 3.5 4. 5. 6. 7. 8. 9.

10. 13. 16. 16.83 (max)

0.0549 0.0775 0.124 0.200 0.316 0.712 1.40 2.45 3.86 5.58 7.54

15.3 31.0 38.4

1.55 (min) 1.6 2. 2.5 3. 3.5 4. 5. 6. 7. 8. 9.

10. 12.13 (max)

0.0551 0.0555 0.0747 0.140 0.274 0.513 0.889 2.11 3.80 5.82 8.12

10.7 14.4 38.2

RMS % Error 34.83


i 1 1 1 1—

0. .5 .8 1.25 2.

RMS % Error 52.58

Life Prediction Ratio Summary a

i 1 ; 1 1

0. .5 .8 1.25 2.

Figure 8.15.3.1.2 8-869

R \ 7150 I Condition/Ht: T7751 Form: 1.12 - 1.25 in. Plate Specimen Type: CT Orientation: L—T Frequency: 10 Hz Environment: LAB AIR; RT

1

-2 10

10

a> —

o 10

10

o

10

10

10

AK (MPaVin) 4 10 40 100

i I i | '|'l

(1 of 3)

- I ' I 'I'l'l - Stress Ratio: 0.1

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10"6 in/cycle) 2.19 (min) 2.5 3. 3.5 4. 5. 6. 7. 8. 9.

10. 13. 15.70 (max)

0.0618 0.0877 0.131 0.181 0.247 0.487 1.07 2.32 4.24 6.15 7.31

13.5 23.2

RMS % Error 31.33


0. .5 .8 1.25 2.

Yield Strength: 81 - 82.2 ksi Ult. Strength: Specimen Thk: 0.499 - 0.5 in. Specimen Width: 2 - 2.002 in. Ref: DA008

1

10

10

.22 o

o^10-4

c _

10

o XI

10

10

10

AK (MPaVin) 4 10 40 100

I 'I'l'l i ' i M'l'i r — Stress Ratio: 0.4

(2 of 3)

10

— 10

10

10

10

— 10

— 10

o o \ E

-z. "O \ D

X>

4 10 40

AK (KsiVin) 100


10. 13. 13.35 (max)

0.0485 0.0720 0.142 0.275 0.497 0.833 1.87 3.40 5.47 8.13

11.4 14.9 24.1 24.9

RMS % Error

>100.0


0. -r~ .5

-r" .8 1.25 2.

Figure 8.15.3.1.3 8-870

Condition/Ht: T7751 Form: 1.12 - 1.25 in. Plate Specimen Type: CT Orientation: L—T Frequency: 10 Hz Environment: LAB AIR; RT

7150

Yield Strength: 81 - 82.2 ksi Ult. Strength: Specimen Thk: 0.499 - 0.5 in. Specimen Width: 2 - 2.002 in. Ref: DA008

R

AK (MPaVin) 4 10 40 100

10

ID"3

.s> _ o o 10 \ c _

■Z. 10

10

10

10

-7


— —

— —

— —

— a M —

If —

- i , I,I,I, i , i.i.i, —

(3 of 3)

10

10"2^ o

-3 = 10 E

10

— 10

— 10

o

AK (MPaVin) 1 4 10 40 100

10

10

O

o 10 c _

10

-V _A —

4 10 40 100

AK (KsiVin)

10

10

10

_ I , I ,|,|i| | i | i j.ji| a

— ~

— —

—

zz —

— — —

— -

— —

— -

~ —

— =

zz —

- I , LI,I, I , LI,I, —

10

o \

-3 | 10 E

— 10 \ o

10

10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 1.26 (min) 1.3 1.6 2. 2.5 3. 3.5 4. 5. 5.22 (max)

0.0446 0.0447 0.0691 0.181 0.498 0.895 1.35 2.11 6.53 8.60

RMS % Error 79.56

Life Prediction Ratio Summary a*iO

RMS % Error

0. .5 .8 1.25


i 1 , 1 1—

0. .5 .8 1.25 2.


R \ 7150 I Condition/Ht: T7751 Form: 1.25 in. Plate Specimen Type: CT Orientation: L-T Frequency: 15 Hz Environment: LAB AIR; RT

AK (MPaVin) 4 10 40 100

i I I I i|>! 33

(1 of 1)

1 I 'IT Stress Ratio: 0.4

4 10 40 100

AK (KsiVin)

AK. (KsiVin) da/dN (10-6in/cycle) 1.61 (min) 2. 2.5 3. 3.5 4. 5. 6. 7. 8. 9.

10. 12.93 (max)

0.0539 0.0867 0.151 0.253 0.412 0.659 1.60 3.30 5.40 7.12 8.77

11.5 27.9

RMS 55 Error 11.61


0. .5 .8 1.25 2.

Yield Strength: 81 ksi Ult. Strength: Specimen Thk: 0.5 in. Specimen Width: 2.002 in. Ref: DA008

AK (MPaVin) 1 4 10 40 100

b I ' I 'I'M 1 ' I TIM

10

10

O

o 10

10

10

10

10 t i ' ini ■ I I HU

— 10

— 10

îo"2£ o

10 E

- _x"0 — 10

10

— 10

o ■D

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10_6in/cycle)

RMS % Error


2. 0. T-

.5 —i 1—

.8 1.25

Figure 8.15.3.1.4 8-872

Condition/Ht: T7751 Form: 0.25 in. Plate Specimen Type: CCP (max load specified) Orientation: L—T Stress Ratio: 0.1 Environment: LAB AIR; RT

7150 F

Yield Strength: 81 ksi Ult. Strength: Specimen Thk: 0.25 in. Specimen Width: 24.94 in. Ref: DA008

AK (MPaVin) 4 10 40 100

(1 of 2)

10

10

_a> _ u

6^10'4

10 -5

■o

10

10

10

-7

- I I I ll,lll I . I llllll _L

— Frequency: 3. Hz —

— —

— —

f —

_ □ _p —

— m* —

— a

i 1 mi 1 i 1,1,1,

—

— 10

io-2 -" o

- 10"° E

AK (MPaVin) 4 10 40 100

(2 of 2)

10

10

o

6-10-4

\ c _

10

— 10

— 10

o

4 10 40 100 AK (KsiVin)

-a 10

10

10

10

_ I I I l,.,ll I 1 1 III,,, _l — Frequency: 5. Hz -=

— —

— —

— / —

— —

— -=

~ 1 , 1,1,1, 1 , lilili

—

— 10

— io"2"

io"JE

■o

— 10 \ o

-5 — 10

— 10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (10'6in/cycle) 3.02 (min) 3.5 4. 5. 6. 7. 8. 9.

10. 13. 14.59 (max)

0.128 0.174 0.248 0.518 1.03 1.90 3.26 5.19 7.76

19.0 26.2

13.90 (min) 16. 17.30 (max)

23.4 34.9 50.8

RMS % Error

>100.0


0. -1 1 1—

.5 .8 1.25

RMS % Error

2.39


0. .5 .8 1.25 2.

Figure 8.15.3.1.5 8-873

R \ 7150 I Condition/Ht: T77511 Form: 0.7 - 1.45 in. Extrusion Specimen Type: CT Orientation: L—T Frequency: 20 Hz Environment: LAB AIR; RT

1

-2 10

10

Ü

o 10

10

10

10

10

-7

AK (MPaVin) 4 10 40 100

1 I 'I'l'l

(1 of 3)

-IM 'IT — Stress Ratio: 0.1

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10-6in/cycle) 1.91 (min) 2. 2.5 3. 3.5 4. 5. 6. 7. 8. 9.

10. 13. 16. 20. 25. 25.41 (max)

0.0859 0.0922 0.163 0.315 0.594 1.05 2.61 4.86 7.09 8.50 8.96 9.15

12.5 29.1 60.1 84.1 92.2

RMS % Error

>100.0

Life Prediction Ratio Summary (EH-XA

2. 0. ~1—

.5 .8 1.25

Yield Strength: 86.5 - 90.5 ksi Ult. Strength: Specimen Thk: 0.493 - 0.498 in. Specimen Width: 1.997 - 2 in. Ref: DA008

AK (MPaVin) 4 10 40 100

i | i 11111

(2 of 3)

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) 1.36 (min) 1.6 2. 2.5 3. 3.5 4. 5. 6. 7. 8. 9.

10. 13. 15.84 (max)

0.0497 0.145 0.423 0.869 1.27 1.58 1.80 2.07 2.28 2.53 2.87 3.35 4.02 8.05

18.1

RMS % Error

>100.0

Life Prediction Ratio Summary A no +

0. .5 —r- .8 1.25

Figure 8.15.3.1.6

8-874

Condition/Ht: T77511 Form: 0.7 — 1.45 in. Extrusion Specimen Type: CT Orientation: L-T Frequency: 20 Hz Environment: LAB AIR; RT

7150 R

Yield Strength: 86.5 - 90.5 ksi Ult. Strength: Specimen Thk: 0.493 - 0.498 in. Specimen Width: 1.997 - 2 in. Ref: DA008

AK (MPaVin) 4 10 40 100

(3 of 3)

-2 10

10

ü

o 10 \ c _

10

-o _K - 10

10

10

.-6

- I I I 'I'l'l I ' I 'I'l'l -1


— —

— —

— □ —

—

-M —

-1, MI i <i.i.i. —

— 10

io"2£ Ü

10 E

AK (MPaVin) 4 10 40 100

-Jio > •o

— 10

— 10

4 10 40 100 AK (KsiVin)

10

10

_qj _

O

6^10-4

c _

Z10*

o

10

10

10 .-8

= I ' I 'I'l'l I ' I 'I'l'l J

— —

— —

— —

— —

— —

I 1 I 1 I ill 1 11,1,1, —

10

io"2£ Ü

— 10 E

-Jio > -o

10

-6 -J 10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (I0"6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 1.22 (min) 1.3 1.6 2. 2.5 3. 3.5 4. 5. 5.46 (max)

0.0441 0.0985 0.506 0.855 0.782 0.742 0.966 1.67 6.45

11.8

RMS % Error 77.68

Life Prediction Ratio Summary RMS % Error

0. —i 1—

.5 .8 1.25


i—

0. —i , 1—

.5 .8 1.25


R I 7150 I Condition/Ht: T77511 Form: 1.45 in. Extrusion Specimen Type: CT Orientation: L—T Frequency: 25 Hz Environment: LAB AIR; RT

AK (MPaVin) 4 10 40 100

(1 of 1)

10

10

Ü

îo"4

c _

10 -5

XI 10

10

10

- I i I Tl'l I ' I 'l'l'l -1

— Stress Ratio: 0.1 ~=

— —

— —

— a - a —

III I

—

— w —

- I , I,I,I, I , LI,I, —

10

—

Ü

-3 f 10 E

— 10

— 10

— 10

o x>

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10_6in/cycle) 2.30 (min) 2.5 3. 3.5 4. 5. 6. 7. 8. 9.

10. 13. 16. 18.03 (max)

0.201 0.336 0.850 1.52 2.22 3.46 4.40 5.20 6.00 6.92 8.07

14.2 29.0 50.4

RMS % Error

>100.0


—i 1 1—

.5 .8 1.25

Yield Strength: 90.5 ksi Ult. Strength: Specimen Thk: 0.493 in. Specimen Width: 2.002 in. Ref: DA008

AK (MPaVin) 4 10 40 100

i- I ' I Tl'l 1 ' I 'I'l'l

10

10

<-> I— o 10 c |_

-5 10

XJ ~

XI _R — 10

10

10 ' i i i in ' I I 111!

— 10

10

— io"2 °

o

— 10 E

10

10

10

X)

o X

4 10 40 100 AK (KsiVin)


RMS % Error


i 1 1 1

0. .5 .8 1.25 2.

Figure 8.15.3.1.7

8-876

7175

«o X

o

B V

•c o e S o «

03

c t- ■* ' eo CO •

1 CO

CO Q

T-l CM CO '

CO

e ö

CM •

CO

id CN 1

; 0» d

I

c CM ' CM O i CM fH

CO CO

« « co 1

«3 Ö

co CO

• CJ1 io CM

e e £ CM

co CM '

«0 cd CM • CM

CO

CM CM

i

c ; i i "1> CM i-H co

•0 > ■S o COQ

;

' '

co co' cd

to co'

to CO

C ; • CM

i-H CO CO

00 CM CO

en CM CO

c © S

■**

es

H -w a CD

o -w

d o

CO co E-

CO

E-i

CM «3 CO t- H

CO CO t- H

CM to CO CO t-

fH 1-1 lO co t~ H

fH IO CO t» E-

Pro

du

ct

For

m

be e

c o

5 X H

8-877

7175 m o

N

CO

|

Q

U

1

H i

• •

O

3

K S H

O

o Hi 3i

ft:

s ■ Ml

II CO IS 6

§&

10

Ö

5 PS

2

§ 5 « o Eh

Z O 53 D K

63

8-878

o

CO

O

tWW/t+M M I Mil II11

«1

D Q ©

«I lii

w

I i

8-879

«4-1 o

w

CD

CO

a

CO

o (3

4

■

o 3

2 3

■ «I o ISl ■

■ mm

m >a ig

£Ss 10 to 0>

«1

::.:»»«J

O 05

1 3

g

8-880

7175

6M O

II!

9

9 *9

■ 00 IO

: is 3

e4

CO

00

W

9

H i

• •

O

9

^

§ o K O

8 3 ts o EK

IM

o ■*

B

8-881

O

to

• SO FH

00

<

O H

B H £ £ O O P*

ä u o

Ü 1—1 H

2

El «1

« 10

am ©■

':«> Ä

sue*

d OS 10

3 Ö

10 c>

;:«: o o

i u

8-882

CM O

CO oi

to lH

CO

<? s$ :»«

©

ii :- ^

:! ■III 1 00 * CO OS CM en

es O iimi 111! 3

C-" ID t-' CO

CO* CO

C-;

CO CO

10 CO 4

o s d

IO

■ CM IO 5 CO 3 CO 9 to

09 CO I

•<* CM

en o

•• mmm r- CO CO CO CM t* a en CO ■*

P < H llllllll

co CO t- CO en CO IO c- U3 »-H CO i- CO CM CO o B » o o o o *"' •H CM CM ■* CO

o ti «0

si CM

ö CM

d CO

d d CM

d

Ixj ::OW:

iSülli o IS CO o CM

o o CM o o io O O m o o o

!-H i-< Ö o d d

CM pH CM CM PH CM

-:« -■:'■"

CM o CM o CM O

CM O

CM o CM O

CM o CM o *-* t-H i-l 10 IO io CO CO *-l

:8lill$l:l:£l o o o o o © o o o © o o o o o o o

B« a

§§ § § § 3

So O K O

« O O J0 SÜHH l* k. s.

H 0H

• • 11 & O NH :::":v:::::

H &§i§|liÄ':§;§* WM g ari

II

is giga

ti B3 IP to CM lO

■* o :•:•:•:•:•:■: £ CO £

5^ OH

8-883

CM O

00

W

< CO o

S

IM

H i

• •

O IM

3

a o

3

ism

I i ■©

SO '■■■»

»■H

Ö

o °? o"

lil o d

i o

s o es o

8-884

7175

CM O

■

H CO

wm %

liii o

IÜ1 1Ü1

Igl IS

il

S

■ ■ Ste-

rn «0 d

01 CD

C5

CO

i-H

CO ———#W*H^M.tit ^Jf ■*>■■

PÖ"

i s Ö

o

■

• •

O

2 a s o

5 g

z 1 I

2

8-885

7175

«4-4 o

es ei

es

cc W

I

O

'S CG

H I

O IM

§1 w

o

in ! ©

3;

<

3 säe*

3 Wi :;::<j^

l&

ll

:-0 iiäies

,«5 mm

Ü

o

8-886

7175

CM O

o

lH

wi CO

W

w

I

fr

H • •

O

|

H

o

iltl

§

■ ■

8»S

O

8-887

7175

CM O

i-t

CO 1-1

CO

W

1

«a feg GO

a

fa

Q

H % O O

to

O M

a

s

■

• •

O

K 5

^J

Ii

I sste;

5 K o

8-888

ei

CO 1-1

CO

1

a <

ti O H Ü «5 0) to 0

e to

M 0> cc **

% o

C5

EH • •

o M

3

O

!.:«::!

8-889

7175

CM O

03

1-1 «0 lH

CO

a

■

O

3

o

111

IÜI

lite

1 SsSSSS®

!*£

hÖ:

m eu

**•*?

«

SÄ*

JSJip

i o K O

8-890

7175

(4-1 o

u

es O iül ili

iS»S

■ 8

II

sites

d

00 H

9 ■ o

d

■ •

o 3

g 3 «

I u K O Eh

s o tt> •* S

8-891

7175

CM O

Iß TH

°? »H

CO iH

GO

3

<

O H

I

§

P

I

CD

■

O

5

» s o

i HI :<? o

Hi ill

I

i ÜI

m

?«?'

to

01 Ö

to Ö

g o K g

O K £

8-892

7175

tu O

SO iH

co

co

<

O H

s

1

rg

GO

I

H

O

3 s

$»S

o

!^;::

3 K g

8-893

7175 □ O ■

1

mm m ■ O

3i to

50

CO

W

IN I'I'I'I'I i1 n '.M.n.r.r.'. '.'.'.'.'.'.'.'.'.'.'.'■'.'.'.'.'.' ■'■'■'-'

llll

»ill

s K o (ft

8-894

7175

<4-l O

00 iH

ei

CO

ec

a

I

1

fa

Q

GO • •

O IM

9

o

3 mm

M

P m m m 0«

■ i

ssss ; is

;.,«5

I o

g

8-895

7175

O

W

CO T-l a GO Q W S J z

1 fa H Q

o o

< to

r

g

a

o 3

2 o

llll

li siit

l II

SOS

i

8-896

g

go

tf

a?3Ü

5 ^1 5 °

s s 8 S

M z 2 00 E- E-

U U 6-

1-1

00

3

•a

8-»

i*

E- N3

ob E» j

fi ob ü Ei

eg* E- E-

BS E- K

E" BS

E- BS

Ö Q

0.

E8

o

2 O

8-897

7175

es e

is

«

rfSÜ

V OQ 3

©

*1? gl<

o

tf

10

2 O K a

E- Ü

EH O

E- U

6- U Ü

a "dps

CO i*

00

9

In o £ 53 Ei

E-

1^ Be»' E-

6 Q

B?

0 tb

g K

| X a

Z o

£<5

8-898

o

91 CO

oo W

3

« £ s § g g g g g g g o

o g g g g a g g g g

3 a H y a a a a a a 3 * * ^

a ^ H 2 3 § s ©

© ©

•i R S t> s IS IS s: E*- s F: e* fc B 5 CO

£ en © © © OJ 0J a A © © © © © © © ©

!& T3

© to

tf

fee o -» ©

4 T3

C o ©

0)

IO

04 i

4'i S o s o o o © Ir- s o

to OJ s o o © © s ©

to s o o CO

© o

8 a s s o v

en CN 8 3 04 0)

CO CN a CO

CN S s 8 s s s CO

V

0 p. 0 < 1 8 e s & s •*• & e 8 S3 s 3 O 8 CO a 3 © s s % < V o O o © o o o o o © © © O © © © o O © © o o

« B^ oo V © IO o IO to eo e- CO CO CO ^« Ü< 8 a CO Si a § to s j CO a a 8 & a a s 3 « 8 B s

6 3~ o o o o O ©

z tf

o E* F- E- E- E- E- E- E- E-< f- E- H H E*« E- H E- H E-< — — Ei U u U u u U U u O o U u U O O O Ü U O 2 z u

a IS ?: t- w t»

s - g. Son

o „tf Q ^ ^ ^ 0 — 04

ü s a a 8 a ^ 8 a 8 Ü en e o s 8 S s 8 8 s CD s M *■• o *-» «-< »-I ^ r- T-? •-< o «-» o «■* o •M i-t rn f Fl © © ©

0. 1 CD

£~ o © to to o o o to CO o ^ §■2* ■*J« 8 a a 8 8 8 a a a s g $ a a a 8 8 s? Ö &s ä Ö 5 w oi ** 04 0) CO eo CO CM CO ^ eo ^ -" r* 04 oa 04 04 04 ** ^-

04

1 9g = o o eo t- t- CO CO CD 04 C- l» c* oo © © r* © © © © « BB4 CO CO CD 00 CO eo co •v *• *•

to e» CD CO co CO CO to ce CO CO CO © © IO to ©

o •o M OS *r ^ J J cn 8s° J£ fi E^ ►i

g^£ 20

*1 c &: H CM eg^ K K

§2 g s 8 s 8 8 8 8 s S3 8 3 S s g 8 s S S to to to

6 go © o 0»

Q

§ g c .2 J3

c be be

0. o tfa

§1 SO

E 1

z © S:

g § to eo

&

0) to CO

04 to CO

8

8-899

1 2>

•UU

o

« z 2 HD

E« Ü

E- H Ü

E- E- U

E- O

go Ben 1°

6 "■2*

00

§3° ob E- ob

E- ob E^

Up«- E- E- E*

K

S Q

'.a ■a

z o

8-900

7175

ES

I 5> fen

rfSU

V

Bg-, 32 = '

M 2 O

Ü

o 10

ei l-S*

00

9 S* =

fe o ob ob

feie OS si

a Q

§ 0. o

c 3> •s

I

8-901

7175

CD •

GO

a

10

I is

til

t^SLi

BlU es«

z 2 m H a

5 B M

J*

sag

Q

ft. o

o U O U E- U

►3 ' ob

►3 ob

fie

8-902

Q

is

w Ü

"^ sc -^»

5" aba

« z g

U E- U

6- E* U

•2*

CC

a 0. O Ob

E- Ei

-a J Ei

ö a § a.

§2

£ '.a S

z o

8-903

7175

a

is

4&A

> C 0

10

94 CO

CO

z g H Q

ii*

gig

tu o

o

E

ob ob ob

ia lO to c» c* eo « co CO 03 CO eo eo CO

8-904

01 CO

00

H

9

BS

e o O o U u u o u U U U U U CJ CJ U y © u CJ O y o u

s I 1 Si Si s 1 Si § ä § Si S § s ä ^ S § ä ä s ä

i 00 © ©

S en en en en en en cn s cn s en % £ s © a» s s © © ©

5> 23 E fee CJ

4 1

■üj o ID

o s 8 o o o CO 8 o 8 o

to § © CO

o CO

© to s s 8 ©

© o ©

o

00 o CO s O

CO S3 to CO CO

eo eo S3 ©

CM S o eo CO a 8 S3 CO

CM CO

CM ©

CM ©

ss s * s 3 s 8 S 3 3 8 5 s 5 s CN to s & s s CM

to o o o o O o © o O O O o © o o © o © O o o o

CR

AC

K

LE

NG

TH

(I

n.)

A eo o © CM CM CM CM

o s s s en s s o O 8 $ ä 8 s s ! s s s 3 8 8 C* © o « o CM o o o o

2

tf O H H H E- H E" H H H H F- H H f- H H E- H H F- H H CD H D

U u O o O o u O CJ U U Ü U O Ü O u u u U U u

z FH s

2 2» 0 0 Q

1 9 cD CD A en a o Ol a» b- e^ (O 00 t»

8 0,

g s s 8 s 8 8 8 CO 8 8 8 8 S s 8 8 8 8 S 8 £~ CM o o ** O o O ©• O ** d O o Ö © ^ © © O O O O

Sf m

£'-. 00 ^* C4 CD ■*r CM «P CM o CO ^

to ^« =0 « V ■**■ z i-s* £ s o 8 8 8 3 a en o $ © ©* a 8 8 $ 8 s % 8 ^ §

1 OB o rl ■*f

" N N

" ~ •V

" CN CN CO CM CM CM CM

9e? = t~ lO to to IO CO CO eo CO CO IO to IO to to CO to to to © to © 5 g a

CD © © s CO CO CD

CO CD S 00

CO CO CO s s eo

CD CO CO s 00

CO © ©

© ©

© ©

© ©

© to

©

si

p£ ■H 6 gg^ OS s

sh s o o s s 8 8 8 8 8 S 8 8 s 8 8 8 8 8 8 8 8

6 E8 eo -* ~ " " eo CO CO CO -* 05 CO CO CO CO " CO CO n « CO ©

o B

OS £ •2 :p ft. O i §

•So Ed

z o e

8

8-905

7175

M

I a

5> fee

§1-3 Z&<

CO

M

is

w ft,

2 2

i*

U U V U U

ao

9 3«s

is si J £

fr- äs

a

ft.

B?

o E

5 "S a

Z o

o u P<3

8-906

7175

CO

CO

H

3

o © o o © o « o o © o © O o u CJ CJ u u u o u CJ O u u u u u u u o 5 o U

g s ä § g ä & £ S Si ä ä ä a § ä ä ä ä ä ä i £

1 CO *H

01 £ OS s s OS OS OS OS •> os OS OS OS OS OS s £ OS OS £ a

a

2> 33

M

M

feo u

4 S3

c o

• ^ s s s m c- IO CN CN •fl« SO CO CO V t- CN t- •w «1 ■v t> •*■ CN

CN CN CN CM a 09 0) CN © CN 01 O) N 0) Ol O) OJ

o 04 S3 s CO CN CN

9* (fi ♦ 5 'S a a & S3 a Si a a a s a a s s a s 0) 3 3 8 CN CN

o o o O o Ö o o o o © © e o o © © e o o O ©

CR

AC

K

LE

NG

TH

(I

n.)

A en t* IO CO CN ■* CO IO î»

8 o s $ S OS a $ 8 © s Si $ s % $ s S s ! CN S o © © © o © o o © o © o f* CN CN f« ^N

z tf 2 H H H H H &■< H H E- H E- H F- H t- H H H E- f» H H

CD H Q

U U o U U u U O U u u O U u u u O U Ü Ü U o

*7

s »em E =

to « ^« os © o OS 04 to ^ to to ia IO us ^« ^» o © ©

u 8 8 8 © en »O 3 a IO, 8 © 8 $ s $ S $ $ s s § s S

w >■* O f-4 •"• O o © © r-t «■* *■• o o © © o Ö

h p IB

E~ •«* V •V V z l-S* 8 s o o 8 $ o $ 8 8 ä 8 o s © s © s % 8 8 s

3 CN *"* 0) CN *"* o

" © CN CN

" ^ CN

" CN ^^ CN « CO CO CN rl

9g? 0) 0» CN N O © o o ^« "* V CO CO CO CO CO CO N t- o CN CN ill ** CO CO CO CO CO CO CO to CO CO CO CO CO CO CO CO CO CO CO co CO CO CO

o TJ

H « J £ gj° HS

s&e ep«- Ä Ü

ll s s s 8 © ■N" s o § 8 8 8 8 8 8 8 8 s 8 8 8 o ©

s Q

x ~ CO CO CO co w "" — "• CO CO CO CO CO CO CO CO «

O c

6. o a.

•S J>

Eg ■so pa

Z O g S IP

So O o

8-907

7175

O

CO

CO

a 3

M

2>

tf if;

rfgl

BE-»

z & K B

0 D

8 a.

' a 2 pp J6

1-2*

gig

& o

eg4-

£

z 9

J is

■a u u

PÖ

ob

fr- ei

e

8-908

7175

Q

O

CO

CO

a

PS

I

*f

2> go

t/p

•fgl

z o

s

Ban

l-S*

9PS

o

I

g. o

Eg*

ob ab

£ 2 g Su E IB

z o

0 u £<3

8-909

7175

Q

8 s s

s 2

rf

5>

LB

go

A

CO

cc

6?

IS I- Si

< "■ 4

i^ - 1^5

Ban

mi u

l-S*

9g?

u * - o El Jl

B|Sfc si

0 a

o 2 g H g E

•B ■ a

51

is

8-910

7175

s 3

s 3

rf

I 2> U

«

IS

M

w DM CO

i

is

jf

13J

fis»

Hi

P ~

1-5*

8 8

9«S

gg ft

eg5- 05 E- K

6 D Q § 0.

£ e g 2 g

% -s a

8-911

■pd 7175 I Condition/Ht: T7354 Form: 6 in. Forging Specimen Type: CT Orientation: L-T Stress Ratio: 0.1

AK (MPaVin) ° °f 2)

1 4 10 40 100

tr I ' I 'I'll T

10 -2

— Environment: Dry Air; R.T.; — 10

_ Frequency: 6. Hz -'

-3 10

.32 o ^10'+

10 -5

.-6 10

10

10

TTT

. i i 11111 i . M.I

— 10

o \

— 10 £

10

10'

10

o

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10_6in/cycle) 4.27 (min) 5. 6. 7. 8. 9.

10. 13. 16. 20. 21.32 (max)

0.746 1.15 1.99 3.27 5.08 7.53

10.7 24.8 45.8 83.0 97.2

RMS % Error

8.01


0. T-

.5 .8 1.25

Yield Strength: 64.8 ksi Ult. Strength: 75.7 ksi Specimen Thk: 0.498 in. Specimen Width: 2.547 - Ref: GD002

2.55 in.

AK (MPaVin) 4 10 40 100

I ' I 'I'M—=1

(2 of 2)

- I ' I 'I'l'l — Environment: S.T.W.; R.T.; _ Frequency: 1. Hz

10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10-6in/cycle) 3.96 (min) 4. 5. 6. 7. 8. 9.

10. 13. 16. 17.40 (max)

0.110 0.119 0.631 2.32 6.14

12.4 19.8 27.0 42.1 50.5 54.0

RMS % Error 46.01


0. .5 .8 1.25

Figure 8.16.3.1.1 8-912

Condition/Ht: T7354 Form: 6 in. Forging Specimen Type: CT Orientation: T—L Frequency: 1 Hz Environment: S.T.W.; RT

7175

Yield Strength: 62.6 ksi Ult. Strength: 73.5 ksi Specimen Thk: 0.499 in. Specimen Width: 2.55 in. Ref: GD002

R.

AK (MPcVin) 4 10 40 100

(1 of 1)

-2 10

10

-2> i— o 6^10"+

10

D "° -6

10

10

10

- I ' I M'l'l I ' I 'I'l'l — Stress Ratio: 0.1

_L

— —

- —

zz —

p —

«* —

I n _

- f — 1 f

- i —

- J =

~ —

- 1 ,1,1,1, 1 , 1,1,1, —

10

o \

-3 I 10 E

- icT\

AK (MPcVin) 1 4 10 40 100

o XI

-5 — 10

— 10

4 10 40 100

AK (KsiVin)

10

10

_o — o u 10 \ c _

2 10 T3

x _, - 10

10

10

= I ' I M'l'l I ' I M'l'l 3

10"2^ o

-3 i= 10 E

-10^\ o X

— 10

— 10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10_6in/cycle) AK (KsiVin) da/dN (10*6in/cycle) 3.20 (min) 3.5 4. 5. 6. 7. 8. 9.

10. 13. 16. 18.60 (max)

0.170 0.194 0.314 1.15 3.89 9.88

18.4 27.5 36.0 58.1

130. 168.

RMS % Error 15.44


.8 1.25


i 1 1 1 1—

0. .5 .8 1.25 2.

Figure 8.16.3.1.2 8-913

■\ 7175 I Condition/Ht: T736 Form: 0.7 in. Forging Specimen Type: CT Orientation: L—T Stress Ratio: 0.02 Frequency: 10 Hz

AK (MPaVin) 1 4 10 40 100

- i ' i 'i'i'i—i ; i M'l'i - Environment: Lab Air; R.T.

(1 of 2)

10

10

i? — o _ Ü 10

-5 10

■D —

10

10

10 .-8 I I I I III ' I I I I II

10

10

io"2£

io"JE

10

10

10

o

4 10 40 100 AK (KsiVin)


10. 13. 16. 20. 23.70 (max)

4.81 6.25

10.5 20.9 36.0 57.5 92.4

RMS % Error 25.55

Life Prediction Ratio Summary A rao

0. —I 1 1

.5 .8 1.25 2.

Yield Strength: 68.5 ksi Ult. Strength: 77.5 ksi Specimen Thk: 0.7 in. Specimen Width: 1.4 in. Ref: 85880

AK (MPaVin) 4 10 40 100

T 1 I I I MM—

(2 of 2)

(= I ' I 'I'I'I - Environment: 3.558 NACL; R.T. — 10

10

10

.22 — o

o 10

c _

10 T3 —

10

10

10

[P

' I ' LL

J3_

a

LU i i i mi

10

io"2^

-3 | 10 E

-Jio >

10

— 10

4 10 40 100 AK (KsiVin)


RMS % Error


0. —i 1 r—

.5 .8 1.25

Figure 8.16.3.1.3 8-914

7175 h Condition/Ht: T736 Form: 1 in. Forging Specimen Type: CT Orientation: L—T Frequency: 6 Hz Environment: DRY AIR; RT

R

Yield Strength: 69.3 ksi Ult. Strength: 78.7 ksi Specimen Thk: 0.401 in. Specimen Width: 2.566 - 2.571 in Ref: GD001

AK (MPaVin) 4 10 40 100

I I I l'|i| 1—I MIH

(1 of 2) AK (MPaVin) 4 10 40 100

4 10 40 100 AK (KsiVin)

10

10

o

o^10-4

c _

Z 10

"o _« I— 10

10

10

= I ' I — Stress

'I'l'l I ' I U'l'l Ratio: 0.3

a

~ —

— —

~^. —

— —

^ —

— —

~ —

— rf =

— JZj —

— _ — —

" I , ,lil, I , I,I,I, -

(2 of 2)

10

10"2^ o

,o4 10

— 10

— 10

o

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 4.64 (min) 5. 6. 7. 8. 9.

10. 13. 16. 19.27 (max)

0.722 1.10 2.54 4.37 6.49 8.93

11.8 24.0 40.7 68.0

2.93 (min) 3. 3.5 4. 5. 6. 7. 8. 9.

10. 13. 15.83 (max)

0.593 0.648 1.14 1.83 3.76 6.35 9.38

12.6 16.0 19.6 33.2 58.9

RMS % Error

3.54


i 1 ; 1 1

0. .5 .8 1.25

RMS % Error 12.63


i r

.5 0. —T-

.8 1.25

Figure 8.16.3.1.4 8-915

■^H 7175 I Condition/Ht: T736 Form: 1 in. Forging Specimen Type: CT Orientation: L—T Frequency: 1 Hz Environment: H.H.A.; RT

Yield Strength: 69.3 ksi Ult. Strength: 78.7 ksi Specimen Thk: 0.398 - 0.404 in. Specimen Width: 2.545 - 2.57 in. Ref: GD001

1

10

io-3

o o 10

ZIG"5

\ O

~° -6 10

10

10 .-8

AK (MPaVin) 4 10 40 100

-I—1 III III!—

(1 of 3)

I ' I M'l'l — Stress Ratio: 0.1 — 10

10

— o \

-3 | 10 E

10

10

10

TJ

o

4 10 40

AK (KsiVin) 100

AK (KsiVin) da/dN (10-6in/cycle) 2.99 (min) 3. 3.5 4. 5. 6. 7. 8. 9.

10. 13. 16. 20. 25. 25.85 (max)

0.440 0.445 0.726 1.08 2.03 3.27 4.82 6.65 8.78

11.2 20.4 32.8 55.1 94.4

103.

RMS % Error 43.12

Life Prediction Ratio Summary A -HD ©

0. .5 .8 1.25

AK (MPaVin) 1 4 10 40 100

i- I ' I M'l'l 1 ' I M'l"

(2 of 3)

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10'6in/cycle) 2.70 (min) 3. 3.5 4. 5. 6. 7. 8. 9.

10. 13. 16. 18.80 (max)

0.369 0.419 0.578 0.840 1.77 3.34 5.53 8.17

11.4 15.3 34.9 72.8

133.

RMS % Error 25.99

Life Prediction Ratio Summary •A on

i 1 1—■ 1 1

.5 .8 0. 1.25

Figure 8.16.3.1.5 8-916

7175 Condition/Ht: T736 Form: 1 in. Forging Specimen Type: CT Orientation: L—T Frequency: 1 Hz Environment: H.H.A.; RT

R


AK (MPaVin) 4 10 40 100

(3 of 3)

10

-3 10

_0J I— Ü

o 10

c _

Z 10

10

10

10

- I I I llllll I ' I M'l'l -1


— —

— —

; —

: J —

: / —

- i ,I,I,I, i , i ,I.I. —

10

10'2£ ü

-3 | 10 E

- _*-o 10

— 10

o T3

10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) 2.66 (min) 3. 3.5 4. 5. 6. 7. 8. 9.

10. 13. 13.04 (max)

0.221 0.344 0.676 1.24 2.97 4.56 5.95 8.20

12.2 17.3 53.6 55.5

RMS % Error 18.03

Life Prediction Ratio Summary □o

i ; ; 1 1

0. .5 .8 1.25 2.

AK (MPaVin) 1 4 10 40 100

b I ' I M'l'l 1 ' I M'l'l—="

10 -2

-3 10

_0) o o 10 c _

10 TJ —

XI _K -

10

10

10 ' llllll I llllll

10

-1 10

10 E

10

10

10

a

4 10 40 100 AK (KsiVin)


RMS % Error


i 1 1 1 1—

0. .5 .8 1.25 2.


R I 7175 I Condition/Ht: T736 Form: 1 in. Forging Specimen Type: CT Orientation: L—T Frequency: 1 Hz Environment: S.T.W.; RT


AK (MPaVin) 4 10 40 100

| ■ | 'I'l'l I ' I M'l'l ="

(1 of 2)

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10'6in/cycle) 4.02 (min) 5. 6. 7. 8. 9. 9.94 (max)

0.540 1.57 3.49 8.96

26.0 51.2 51.9

RMS S Error 17.16


0. T-

.5 .8 1.25

AK (MPaVin) 4 10 40 100

(2 of 2)

10 -2

-3 10

O

O-10-4

-s 10

-a

o

10

10 -7

10 .-8

— Stress Ratio: I ' I 'I'l'l

0.5

_ _L

—

— —

Jh — JjP

f —

— <f -=

_ -**+ -=

" I , LI,I, I , I.I,I,

—

10

— 10

_2 io"2 °

o

- _^x> 10

10

D

— 10

4 10 40

AK (KsiVin) 100


10. 13. 13.68 (max)

0.267 0.334 0.590 1.13 2.14 6.28

13.5 22.2 31.8 42.8 56.8

122. 139.

RMS % Error 25.63

Life Prediction Ratio Summary -HD O A

0. —r- .5 .8 1.25

Figure 8.16.3.1.6 8-918


8-919

1 7175 I Condition/Ht: T736 Form: 4 - 5 in. Forging Specimen Type: CT Orientation: T-L Stress Ratio: 0.33 Frequency: 18.3 Hz

1 AK (MPaVin)

4 10 40 100

I ' I 'I'l'l

(1 of 3)

I ' I 'I'l'l — Environment: Dry Air; R.T. 10

4 10 40 100

AK (KsiVin)


10. 13. 16. 16.26 (max)

2.87 3.16 5.18 7.31 9.55

12.5 40.9

116. 120.

RMS % Error 18.20


i 1 1 1 -i

2. .5 .8 1.25

Yield Strength: 59.9 - 60.1 ksi Ult. Strength: 69.5 - 70.8 ksi Specimen Thk: 1.501 - 1.502 in. Specimen Width: 3.8 in. Ref: 86842

AK (MPaVin) 1 4 10 40 100

b I ' I 'I'l'l 1 ' I 'I'l'l - Environment: H.H.A.; R.T. -=j 1 °

(2 of 3)

10

10

o _ o^lO-4

s — -5

10 "O

-o _« — 10

10

10 ' i ' i in i±L i i i nil

— 10

Si

U

— 10 E

- -A-O 10

10

o ■D

— 10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) 6.01 (min) 7. 8. 9.

10. 13. 13.84 (max)

6.39 9.65

13.7 18.2 23.8 55.8 88.7

RMS % Error

5.72

Life Prediction Ratio Summary an

i 1 1—• 1 1

0. .5 .8 1.25 2.

Figure 8.16.3.1.7 8-920

-I "7-ITC I ,

Condition/Ht: T736 Form: 4 - 5 in. Forging Specimen Type: CT Orientation: T-L

E

Yield Strength: 59.9 - 60.1 ksi Ult. Strength: 69.5 - 70.8 ksi Specimen Thk: 1.501 - 1.502 in.

Stress Ratio: 0.33 Specimen Width: 3.8 in. Frequency: 18.3 Hz Ref: 86842

1 AK (MPaVin)

4 10 40 100

(3 of 3)

1 AK (MPaVin)

4 10 40 100 _ | i | i|i|i| | i | <|i|i| _L

0 _ | I | I |l|l| | , | >,.,., -L

0

— Environment: Salt Fog; R.T. 10 *"" ~"~" 10

lO"2 10"2

— -i 10 —

-1 10

lO"3

O

O 10

(mm

/cycle

) lO"'

o o 10

— io'2^ ü \

-3I 10 Ê

ä / 2 10"5

X \ O

~° -6 10

-z. 10 >

-5 10

ZIG"5

X) \ o "° -6

10

— 10 >

XI

-s 10 —

IG'7

-6 10

10"7

-6 10

10"8

1

~ I , I ,1,1, I , I.I.L 10"8 - I , l.l.l, I , l.l.l, 4 10 40 100

AK (KsiVin) 4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10"6 n/cycle) AK (KsiVin) da/dN (10"6in/cycle) 5.96 (min) 6.04 6. 6.11 7. 9.18 8. 13.4- 9. 17.1

10. 21.6 13. 51.1 13.62 (max) 73.7

RMS % Life Prediction Ratio Summary RMS % Life Prediction Ratio Summary Error □ Error

5.95 i \ 1 - 'i

0. .5 .8 1.25 2. 0. .5 .8 1.25 2.


1 7175 I Condition/Ht: T736 Form: 5 in. Forging Specimen Type: CT Orientation: S-T Stress Ratio: 0.33 Frequency: 18.3 Hz


1

10

10

Ü

6-10"+

10

10

10

10 .-8

AK (MPaVin) 4 10 40 100

-i—i i i um—

(1 of 2)

I- I 'I 'I'l'l . • ■ Environment: Dry Air; R.T

■ I ■ I'" I I 111 Hi

— 10

— 10

io"2 ° Ü

10 E

10

10

10

o

4 10 40 100

AK (KsiVin)


10. 13. 13.35 (max)

1.79 2.81 5.50 8.33

11.9 67.1 81.6

RMS % Error

6.29


0. -r~ .8 1.25 2.

10

10

o frio-4

10 TJ —

TJ _. — 10

10

10

AK (MPaVin) 4 10 40 100

i I i |ilM—

(2 of 2)

MM 'I'l'l - Environment: H.H.A.; R.T. — 10

i I I I Ml i I i 1111 LL

— 10

-—I io - " -2

Q>

o

— 10 E

-Jio >

10

— 10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (1CT6in/cycle) 6.38 (min) 7. 8. 9.

10. 12.96 (max)

1.55 2.55 5.34

10.1 17.1 62.9

RMS % Error

4.20

Life Prediction Ratio Summary m

2. 0. —i 1 1—

.5 .8 1.25

Figure 8.16.3.1.8 8-922


8-923

^ 7175 I Condition/Ht: T736 Form: 5 in. Forging Specimen Type: CCP (max load specified) Orientation: L-T Stress Ratio: 0.33 Frequency: 5.2 Hz

Yield Strength: 62.1 ksi Ult. Strength: 72.5 ksi Specimen Thk: 0.744 - 0.747 in. Specimen Width: 3 in. Ref: 86842

AK (MPaVin) (1 °f 3)

4 10 40 100

10

ID"3

J> —

ü ^10"+

\ c _

: 10

10

10

10

-7

^1 ' 1 'I'l'l 1 ' 1 M'l'l a

— Environment: Dry Air; R.T. —

— -T=

— —

_ —

— jF —

— —

" 1 , 1,1,1, 1 , 1,1,1, —

10

— 10

10 E

10

— 10

— 10

o ■a

4 10

AK (KsiVin) 40 100


10. 13. 16. 16.26 (max)

2.94 5.27 8.30

11.4 16.0 35.7 54.4 61.4

RMS % Error

5.43

Life Prediction Ratio Summary D

0. .5 —I-

.8 1.25

AK (MPaVin) 4 10 40 100

-2 10

10

u 6-10-4

\ ,_ c \—

: 10 -5

x>

10

10

10 .-8

- I I I 'I'l'l I ' I 'I'l'l -1

— Environment: H.H.A.; R.T. —

— —

—~ —

_ -=

— tf -=

— —

~ 1 , 1,1,1, 1 , 1,1,1, -=

(2 of 3)

— 10

-i — 10

10"2^ o \

-3 | 10 E

— 10" \ o

-5 — 10

10

10 AK (KsiVin)

40 100


10. 13. 16. 16.99 (max)

3.26 6.12 9.43

13.7 19.7 36.8 80.9 92.0

RMS % Error

3.47


0. -r-

.5 —r- .8 1.25

Figure 8.16.3.1.9 8-924

i -> 17 r I I / J ' r

Condition/Ht: T736 Form: 5 in. Forging Yield Strength: 62.1 ksi Specimen Type: CCP (max load specified) Ult. Strength: 72.5 ksi Orientation: L—T Specimen Thk: 0.744 — 0.747 in. Stress Ratio: 0.33 Specimen Width: 3 in. Frequency: 5.2 Hz Ref: 86842

1 AK (MPaVin) (

4- 10 40 100

3 of 3)

1 AK (MPaVin)

4 10 40 100 _ | i | >|i|i| | i | T|'| J. - I ' I 'I'll 1 ' 1 'I'll ■x

— Environment: Salt Fog; R.T. — 10 — — 10

■ ID"2 —

-1 10

10-2 —

-1 10

— — —

10-3

O

5-10-+

\ c

Z10"5

XJ \ o "° -6 10

—

io"2£ o \

10 Ê

-z. 10 >

-5 10

la"3

O

O-10-4

c

210-5

XI \ o "C -6

10

—

io"2£

■z.

10 > XJ

-5 10

~~ — —

" /

f — — —

— lif — —

— —

IQ"7

_ - -6

10

10"7 - -6

10 —

10"8 ~ I , Mil, i , i, i,i, - 10"8 " 1 , 1,1,1, I , I,I,I, -

1 4 10 40 100

AK (KsiVin) 1 4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 6.16 (min) 8.60 7. 12.5 8. 19.7 9. 29.8

10. 41.8 13. 74.3 14.93 (max) 97.0

RMS % Life Prediction Ratio Summary RMS % Life Prediction Ratio Summary Error a Error

2.57 II> > i

0. .5 .8 1.25 2. 0. .5 .8 1.25 2.


^ 7175 h Condition/Ht: T736 Form: 5 in. Forging Specimen Type: CCP (max load specified) Orientation: T—L Stress Ratio: 0.33 Frequency: 5.2 Hz

AK (MPaVin) 4 10 40 100

(1 of 3)

10 -2

-3 10

_a> I— ü

ü 10 \ ,_ c _

10

■O _, — 10

-6

10

10

-7

-T ' I M'l'l I ' I 'l'l'l -1


— —

_- —

— —

~~ JJY —

——

—

~ 1 , 1,1,1, 1 , 1,1,1,

— 10

— 10

io"2£

10 E

- 1(T\ o

10

10

10

AK (KsiVin) 40 100


10. 13. 16. 16.71 (max)

2.74 4.50 7.48

11.6 16.2 35.6 89.4

108.

RMS % Error

5.40


0. —i r—

.5 .8 1.25


AK (MPaVin) 4 10 40 100

(2 of 3)

-2 10

10

o £io-+

\ c _

-5 10

■o _* — 10

10

10

-7

"- I ' I M'l'l I ' I M'l'l -1


—

— —

— —

— QJ —

— —

~ 1 , 1,1,1, 1 , 1,1,1, -=:

— 10

10

io"2^ o \

-I 10 E

-I io > T3

— 10

10

4 10 40 100

AK (KsiVin)


10. 13. 15.81 (max)

3.75 5.78 8.79

12.9 18.2 44.9 90.7

RMS % Error 11.72

Life Prediction Ratio Summary ED

0. .5 .8 1.25

Figure 8.16.3.1.10

8-926

Condition/Ht: T736 Form: 5 in. Forging Specimen Type: CCP (max load specified) Orientation: T—L Stress Ratio: 0.33 Frequency: 5.2 Hz

H 7175 r


AK (MPaVin) 4 10 40 100

(3 of 3)

10

10

o o 10

c _

Z 10 T3 p

10

10

10 .-8

- I ' I 'I'l'l I ' I M'l'l _L

— Environment: Salt Fog; R.T. — - —

—

— -

— "

— - "™

— r>F —

= c? z — - = z — —

—

" I , I,I,I, I , LI,I, -

— 10

10"2 °

10 E

XI

— 10

— 10

4 10 40 100 AK (KsiVin)


10. 13. 16. 16.59 (max)

6.00 6.29

12.1 19.0 25.8 31.5 54.5

120. 128.

RMS % Error 16.64


i 1 1 1 1—

.5 .8 1.25 0. 2.

AK (MPaVin) 1 4 10 40 100

10

10

.5? I— o 5-10-4

c _

Z 10 -a p

"o -er- IO

10

10

= I ' I M'l'l 1 ' I M'l'l =

10

<a 10~

2 ü O \

10~ '1 ^-^ zz.

10 \ u

T?

10

10

4 10 40 100 AK (KsiVin)


RMS % Error


—i 1 1—

.5 .8 1.25 —i--

2.


F i 7175 I Condition/Ht: T736 Form: 2 in. Forging Specimen Type: DCB Orientation: L-T Stress Ratio: 0.02 Environment: DRY AIR; RT

1

10

10

o _ o 10

10

o "° -e\-

10

10

10

AK (MPaVin) 4 10 40 100

-1 1 I I I Mil

(1 of 2)

I ' I M'l'l T~ — Frequency: 0.08 Hz

i I I Ml

CD

a

' i ' im

10

10

10' &

10 E

10

— 10

— 10

■o

o XI

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (lO'Mn/cycle)

RMS % Error


.5 .8 1.25

Yield Strength: 69-71 ksi Ult. Strength: 78 - 79 ksi Specimen Thk: 0.75 in. Specimen Width: 5.5 in. Ref: 84360

AK (MPaVin) 4 10 40 100

-2 10

10

o o^10-4

\ c _

ZIG"5

-o _fi |— 10

-7 10

10

ET"1 1 M'l'l 1 ' 1 M'l'l -1

— Frequency: 1. Hz "=

~~~

— □ """"

— —

o

—

" I , LI,I, I , I,LI, —

(2 of 2)

10

— 10

io"2^ Ü

— 10 E

- _*-o — 10

— 10

— 10

a XI

4 10 40 100 AK (KsiVin)


RMS % Error


0. i i 1—

.5 .8 1.25

Figure 8.16.3.1.11 8-928

1 7175 h=- Condition/Ht: T736 Form: 2 - 3 in. Forging Yield Strength: 69-71 ksi Specimen Type: DCB Ult. Strength: 78 - 79 ksi Orientation: L-T Specimen Thk: 0.75 in. Stress Ratio: 0.02 Specimen Width: 5.5 in. Frequency: 10 Hz Ref: 84360

AK (MPaVin) (1 of 2) AK (MPaVin) (2 of 2)

1 4 10 40 100 1 4 10 40 100

-l'l Tl'l I ' I M'l'l -1 -IM M'l'l I ' I 'l'l'l ■x

— Environment: Dry Air; R.T. -= 10 — Environment: Lab Air; R.T. — 10

10"2 io"2

— -1 10 — 10

io-3 — —

a> io"3 _

'ÖT _ — •—s ~* io"2£ (1) — a _ io"2£ o — o o — o

OMo"4 ■3 — GMo"4 m — üj —

c — □ 10 JE, _c 0 10 Ê

© __ -5 210 z -*"° ■z. 10 z:

ö — LÜ

\ 10 \ \ 10 > o o o D

■° -6 10

— - XI "° -6 10 nP

■o

=

— -5

10 — -5

10

io"7 — — 10"7 —

— -s — -6 — 10 — 10

10"8 ~ 1 . LM, I , l,l,l, — io-8 " I , l.l.l, I , LIJ, —

1 4 10 40 100 1 4 10 40 100 AK (KsiVin) AK (KsiVin)

AK (KsiVin) da/dN (10'6in/cycle) AK (KsiVin) da/dN (10"6in/cycle)

RMS 56 Life Prediction Ratio Summary RMS % Life Prediction Ratio Summary Error Error

i r— i i i

0. .5 .8 1.25 2. i i i i >

0. .5 .8 1.25 2.

Figure 8.16.3.1.12 8-929

R ^ 7175 I Condition/Ht: T736 Form: 3 in. Forging Specimen Type: DCB Orientation: L-T Frequency: 10 Hz Environment: DRY AIR; RT

AK (MPaVin) 4 10 40 100

10

IQ"3

Ü

o 10 \ c l_

10

o "° -6

10

10

10


— —

— —

— —

Ö —

—

- 1 , 1,1,1, 1 ,1,1,1, —

(1 of 1)

— 10

— 10

io'2« o \

10 E

- _x"a — 10

— 10

o

10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10'6in/cycle)

RMS % Error


0. .5 .8 1.25

Yield Strength: 69.5 ksi Ult. Strength: 78 ksi Specimen Thk: 0.625 in. Specimen Width: 5.5 in. Ref: 84360

10

10

o G^10-4

c _

-5

AK (MPaVin) 4 10 40 100

— 10"

10

10

■o _R - 10

10

10

-7

- I I I «I'l'l I ' I 'I'l'l -1

— - —

— -

— -

— —

—

— ■ —

~~* —

- 1 ,1,1,1, 1 ,1,1,1, —

<0

ü \

-3 | 10 E

■o

10

10

4 10 40 100 AK (KsiVin)


RMS % Error


, 1 1 1

0. .5 .8 1.25 —i-'

2.

Figure 8.16.3.1.13 8-930

7175 r Condition/Ht: T73652 Form: Forging Specimen Type: CT Orientation: L—T Stress Ratio: 0.08 Frequency: 0.1 Hz

Yield Strength: 68 ksi Ult. Strength: 77 ksi Specimen Thk: 1 in. Specimen Width: 7.4 in. Ref: 88579

AK (MPaVin) 4 10 40 100

I ' I 'I'l'l 1 ' I 'I'l'l - Environment: L.H.A.; R.T. "d 1 °

(1 of 2)

-2 10

10

o frier4

■D 10

10

10

10

-7

I [Mill

f

I I I I II

— 10

o \

-3 I 10 E

10

10

10

o

4 10 40 100 AK (KsiVin)

10

10

u o 10

10 -5

■a —

10

10

10

AK (MPaVin) 4 10 40 100

"I—I I I i mi—

(2 of 2)

I ' I 'I'l'l , Environment: S.T.W.; R.T

_[L

□

' I i lili ' i i iMi

10

10

_0J

io"2^

10 E

10

10

10

o

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 7.94 (min) 4.66 8. 4.70 9. 6.57

10. 10.3 13. 23.1 16. 37.4 17.28 (max) 43.4

RMS % Error

3.73


i 1 1 1 1—

0. .5 .8 1.25 2.

RMS % Error


i 1 1 1 1—

0. .5 .8 1.25 2.

Figure 8.16.3.1.14 8-931

■I 7175 I Condition/Ht: T73652 Form: Forging Specimen Type: CT Orientation: L-T Stress Ratio: 0.08 Frequency: 1 Hz

AK (MPaVin) 1 4 10 40 100

(1 of 3)

10

-3 10

ü

ü 10

c _

Z 10

\ o "O -8

10

10

10

- I " I 'I'll 1 ' 1 U'l'l -1

— Environment: L.H.A.; R.T. ~

— —

~— —

— —

— 0 —

: '* —

III 1

1 , 1,1,1, —

10

10 £ o \

-3| 10 E

10

— 10

— 10

o

4 10 40 100 AK (KsiVin)


10. 13. 16. 20. 20.53 (max)

0.418 0.432 0.802 1.65 3.27 5.88 9.41

20.8 28.4 51.5 52.0

RMS % Error

6.81


i—

0. .5 .8 1.25

Yield Strength: 68 ksi Ult. Strength: 77 ksi Specimen Thk: 0.99 - 1 in. Specimen Width: 7.4 in. Ref: 88579

AK (MPaVin) 4 10 40 100

(2 of 3)

-2 10

10

o o^10"4

Z 10

10

10

10

= I ' I M'l'l I ' I 'I'l'l — Environment: S.T.W.; R.T.

_i

— -=

— —

—

—

: —

- i , i,i,i, i , i,i,i, —

-1 — 10

Ü

— 10 E

— 10

10

4 10 40 100 AK (KsiVin)


RMS % Error


0. —, r- .5 .8 1.25 2.

Figure 8.16.3.1.15 8-932

Condition/Ht: T73652 Form: Forging Specimen Type: CT Orientation: L—T Stress Ratio: 0.08 Frequency: 1 Hz

^ 7175

Yield Strength: 68 ksi Ult. Strength: 77 ksi Specimen Thk: 0.99 - 1 in. Specimen Width: 7.4 in. Ref: 88579

AK (MPaVin) 4 10 40 100

-2 10

10

_a> I— ü o*10"

c _

-z. 10

■D

10

TO

10

-7

_ | . | l|Mlj | 1 | <|>|l| _L

— Environment: F.C.S.; R.T. —

— —

_ —

: —

— m —

_ D —

II 1 1

1 , 1,1,1, —

(3 of 3)

10

10

_Q3

O

O

— 10 E

10

— 10

— 10

o XI

4 10 40

AK (KsiVin) 100


10. 13. 16. 18.66 (max)

0.275 0.328 0.503 0.721 1.32 2.20 3.51 5.37 7.82

10.8 21.4 35.1 47.5

RMS % Error

5.01


0. .5 .8 1.25

AK (MPaVin) 1 4 10 40 100

i- I ' I Tl'l 1 ' I Tl'l

10

10

u _ o^10-4

10 -a —

-o _« — 10

10

10 I . M.I. Mill

10

10

-2>

o \

10 E

10

10

10

■D

O T3

4 10 40 100

AK (KsiVin)


RMS S5 Error


0. .5 .8 1.25 —!-■

2.


^ 7175 I Condition/Ht: T73652 Form: 6 in. Forging Specimen Type: CT Orientation: L—T Stress Ratio: 0.08 Frequency: 6 Hz

Yield Strength: 68 - 70 ksi Ult. Strength: 77 - 80 ksi Specimen Thk: 0.99 - 0.998 in. Specimen Width: 7.4 in. Ref: 85837;88579

AK (MPaVin) 1 4 10 40 100

(1 of 2)

10

-3 10

J2 I— o o 10 \ c _

-o 10

10

10

10

-7

- I I I ll>l'l I ' I M'l'l -1

— Environment: L.H.A.; R.T. —

_— —

— —

~"~ —

lA

—

: / —

- i , i.i.i, i , i.i.i, —

-1 — 10

ü

- 10"J E

- -i'O 10

— 10

— 10

o

4 10 40 100

AK (KsiVin)


10. 13. 15.25 (max)

0.548 1.02 1.85 3.18 5.31 8.49

23.6 36.1

RMS % Error 12.88


i 1 1 1 1—

2. 0. .5 .8 1.25

10

10

cj

6^10-4

Z 10

10

-s

10

10

AK (MPaVin) 4 10 40 100

TTT

(2 of 2)

i i i inn Environment: LHA; 265T — 10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10*6in/cycle) 4.56 (min) 5. 6. 7. 8. 9.

10. 13. 16. 16.44 (max)

0.289 0.492 1.26 2.53 4.33 6.65 9.49

21.0 37.4 40.2

RMS % Error 11.38


0. .5 .8 1.25

Figure 8.16.3.1.16 8-934

17 c; I I / 5 ' D

Condition/Ht: T73652 Form: Forging Yield Strength: 68 ksi Specimen Type: CT Ult. Strength: 77 ksi Orientation: L—T Specimen Thk: 0.5 in. Frequency: 6 Hz Specimen Width: 7.4 in. Environment: LHA; RT Ref: 88579

AK (MPaVin) (1 of 1) AK (MPaVin) 1 4 10 40 100 1 4 10 40 100 _ | I | l|l|.| | I | jljlj _L

Q _ I , I ,,,,,| | . | i|,j.| a o

- Stress Ratio: 0.08 — 10 — — 10

10"2 10"2

— -1 10 — —

-1 10

ID"3 CD IQ"3 —

<o _ _ __ /*—s^ -2 T; x~^ —— _"2 7i V — 10 « 

10 T 10

E ;■ i — -5

10 =

— -5

10

10"7 — io-7

— -6

10 — -6

10

m"8 ~ I , l,U I , I,I,I, — in"8 - 1 , 1,1,h I , LI,I, —


AK (KsiVin) da/dN (10*6in/cycle) AK (KsiVin) da/dN (1CT6in/cycle) 6.02 (min) 0.421 7. 1.07 8. 2.19 9. 3.81

10. 5.92 13. 14.4 16. 24.2 20. 36.8 25. 50.3 30. 61.4 32.75 (max) 66.8


9.51 i 1 ■ ■ r 'i \~~

0. .5 .8 1.25 2. i i i i §—

0. .5 .8 1.25 2.

Figure 8.16.3.1.17

8-935

R i 7175 I Condition/Ht: T73652 Form: Forging Specimen Type: CT Orientation: L—T Frequency: 6 Hz Environment: L.H.A.; RT

AK (MPcVin) 4 10 40 100

(1 of 1)

10

10

o o 10 \ c _

2M0'5

10

10

10 .-8

- Stress Ratio: 0.08 —

— —

— —

■™ —

— 1 —

— ßj

—

" 1 , 1,1,1, 1 , 1,1,1, —

10

— 10

O

-3 p. 10 E

- io"'\ o XI

-5 — 10

10

4 10 40 100 AK (KsiVin)


10. 13. 16. 19.86 (max)

0.554 1.06 2.07 3.60 5.67

14.5 24.1 31.3

RMS % Error 10.87


i 1 , 1 1—

0. .5 .8 1.25

Yield Strength: 68 ksi Ult. Strength: 77 ksi Specimen Thk: 0.25 in. Specimen Width: 7.4 in. Ref: 88579

AK (MPaVin) 1 4 10 40 100

10

la"3

o O-10-4

10 ■o

"o _fi f— 10

10

10

- I ' I 'I'l'l 1 ' I Tl'l 3

10

— 10

io"2 ° o

-3 I 10 E

- _„"o — 10 o

-5 10

— 10

4 10 40 100 AK (KsiVin)


RMS % Error


0. .5 .8 1.25 —!-■

2.

Figure 8.16.3.1.18 8-936

1 7175 Hr Condition/Ht: T73652 Form: Forging Yield Strength: 68 ksi Specimen Type: CT Ult. Strength: 77 ksi Orientation: L—T Specimen Thk: 1 in. Frequency: 6 Hz Specimen Width: 7.4- in. Environment: L.H.A.; RT Ref: 88579

AK (MPaVin) (1 of ° AK (MPaVin) 1 4 10 40 100 1 4 10 40 100

- I ' I 'I'l'l I ' I 'I'l'l -1

— Stress Ratio: 0.3 — 0

10 = I ' I 'I'l'l I ' I 'I'l'l _L

0 10

10"2 *""* __

io-2

— -i 10

— -i 10

ID"3 —

 O o O o "° -6 ■D ~° „"* — _ "D

10 10 __ jjj —.

_ H^ — -5

10 — — -5

10

10"7 — - io"7

*■"■" — —

— -6

10 — — 10

in* " 1 ,1 ,1.1, t III - m"B ~ I , I,I,I, I , I,I,I,

1 4 10 40 100 1 4 10 ,40 100


AK (KsiVin) da/dN (10"6 in/cycle) AK (KsiVin) da/dN (10 "6in/cycle) 4.45 (min) 0.498 5. 0.533 6. 1.01 7. 2.21 8. 4.34 9. 7.08

10. 10.1 13. 20.1 16. 26.8 18.40 (max) 35.0


4.66 i 1 r- i i

0. .5 .8 1.25 2. 0. .5 .8 1.25 2.

Figure 8.16.3.1.19 8-937

R ^ 7175 I Condition/Ht: T73652 Form: Forging Specimen Type: CT Orientation: L—T Frequency: 1 Hz Environment: S.T.W.; RT

-2 10

10

<p —

o fri o-4

10

10

10

10

AK (MPaVin) 4 10 40 100

i I iI'HI—

(1 of 2)


4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (1(r6in/cycle) 2.91 (min) 3. 3.5 4. 5. 6. 7. 8. 9.

10. 13. 13.55 (max)

0.176 0.178 0.285 0.640 3.24 9.28

15.7 20.9 25.6 29.4 39.1 47.5

RMS % Error 15.36


0. .5 .8 1.25 2.



10

10

.2? —

o _

£io-4

c _

10 ■a —

10

10

10 -8

AK (MPaVin) 4 10 40 100

1 I TIM 1 ' I 'I'l'i

(2 of 2)

I 1 I III I I III

— 10

— 10

Ü

— 10 E

-Jio >

10

— 10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (1(T6in/cycle) 5.36 (min) 6. 7. 8. 9.

10. 12.77 (max)

9.41 12.6 17.8 23.1 28.3 33.3 45.5

RMS % Error

4.30


i 1 1 -i 1

0. .5 .8 1.25 2.

Figure 8.16.3.1.20 8-938

-I 7175 h Condition/Ht: T73652 Form: Forging Specimen Type: CT Orientation: T—L Frequency: 6 Hz Environment: L.H.A.; RT

R


AK (MPaVin) 4 10 40 100

(1 of 1)

4 10 40 100

AK (KsiVin)


10. 13. 15.77 (max)

0.449 0.507 0.873 1.33 1.95

15.9 39.0

RMS % Error

5.86


i—

0. .5 .8 1.25

10

10

_a) — o _

c _

10 -a —

"o - — 10

10

10

AK (MPaVin) 4 10 40 100

I ' I M'l'l I ' I M'l'l

I I I I III I , Mil,

— 10

10

Ü

-=jio Ê

■z.

-o

-s 10

10

4 10 40 100 AK (KsiVin)


RMS % Error


i 1 1 1 1—

0. .5 .8 1.25 2.

Figure 8.16.3.1.21 8-939

R I 7175 I Condition/Ht: T73652 Form: Forging Specimen Type: CT Orientation: T-L Frequency: 6 Hz Environment: L.H.A.; RT

AK (MPaVin) 4 10 40 100

10

10

_5> o £l 0"+

Z 10

-a _K — 10

10

10

ET^l M'l'l I ' I M'l'l -1


— —

— —

— —

— r

—

- 1 , 1,1,1, 1 i 1 11 ill

—

(1 of 1)

— 10

10

io-2« o

-3 | 10 E

-Jio >

— 10

— 10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) 7.73 (min) 8. 9.

10. 13. 16. 18.99 (max)

1.04 1.41 2.79 3.97

10.9 20.6 33.6

RMS % Error

5.74

Yield Strength: 64 ksi Ult. Strength: 74 ksi Specimen Thk: 0.5 in. Specimen Width: 7.4 in. Ref: 88579

AK (MPaVin) 4 10 40 100

10

10

o

c _

Z10"5

o "O -6

10

10

10

- I 'I M'l'l 1 ' I M'l'l = — 10

— 10

u

-3 | 10 E

-i<r \ o ■o

-6 10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (1CT6in/cycle)

Life Prediction Ratio Summary ra

i 1 1 1 i

.5 .8 1.25 2. 0.

RMS % Error


i 1 1 1

0. .5 .8 1.25 —i-'

2.

Figure 8.16.3.1.22 8-940

7175 r Condition/Ht: T73652 Form: Forging Specimen Type: CCP (max load specified) Orientation: L—T Stress Ratio: 0.02 Environment: LAB AIR; RT

F Yield Strength: 71.7 ksi Ult. Strength: 81.5 ksi Specimen Thk: 0.107 - 0.11 in. Specimen Width: 3.947 - 3.951 in Ref: MA002

AK (MPaVin) 1 4 10 40 100

10

10

o o 10 \ c _

2 10 x> tz

10 .-6

10

_ I . I l,l,l{ I I I lj.n -i


— —

— —

— —

—

~~ M'

—

" I , I.I.I. I . I,1.1. —

(1 of 2)

10

-i 10

— -S?

o

AK (MPaVin) 1 4 10 40 100

-2

-3 I 10 E

^10 > XI

10

— 10

4 10 40 100 AK (KsiVin)

10

10

o 0^10-*

z 10

-o _B - 10

10

10

— Frequency: 18. Hz -=

— —

— -=

— —

— /W —

"~" ^v -=

" I , I.I.I. I , I,I,I, -=:

(2 of 2)

10

— 10

— 10

10

"2 ü o \ E E

- _*-o 10

— 10

— 10

T3

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 1.69 (min) 2. 2.5 2.61 (max)

0.0239 0.0702 0.119 0.126

2.41 (min) 2.5 3. 3.5 4. 5. 6. 7. 8. 9.

10. 13. 13.43 (max)

0.109 0.115 0.163 0.239 0.354 0.764 1.55 2.75 4.21 5.69 7.48

19.2 21.3

RMS % Error

7.45


1 1 1 1 1—

0. .5 .8 1.25 2.

RMS % Error

9.78


1 r

0. .5 .8 1.25 2.

Figure 8.16.3.1.23 8-941

1 7175 I Condition/Ht: T73652 Form: 1.25 in. Forging Specimen Type: WOL Orientation: L—T Stress Ratio: 0.02 Frequency: 0.1 — 20 Hz

AK (MPaVin) 1 4 10 40 100

10

10

_QJ I— O

o 10 c _

■Z. 10

T> 10

10

10

= I ' I M'l'l I ' I 'I'l'l a

— Environment: Lab Air; R.T. —

— —

0 —

— —

&p —

■~~ tj —

- I , I,I,I, I , I,I,I,

—

(1 of 3)

10

io"2£

— 10

10

— 10

— 10

-a

4 10 40 100 AK (KsiVin)


10. 13. 16. 20. 25. 30. 34.62 (max)

0.522 1.23 2.59 4.34 6.32 8.39

14.8 22.2 37.5 84.3

188. 224.

RMS % Error

25.59


.5 .8 1.25

Yield Strength: 66.3 - 70.3 ksi Uit. Strength: 76.8 - 79.3 ksi Specimen Thk: 1.25 in. Specimen Width: 5 in. Ref: MA005

AK (MPaVin) 4 10 40 100

IM nni 1—i i i MIM

(2 of 3)

4 10 40 100 AK (KsiVin)


10. 13. 16. 20. 25. 30. 31.92 (max)

0.218 0.442 0.889 1.67 2.87 4.55 6.67

14.5 24.6 47.6

113. 299. 482.

RMS % Error

10.33


i 1 1 1—

0. .5 .8 1.25

Figure 8.16.3.1.24 8-942

Condition/Ht: T73652 Form: 1.25 in. Forging Specimen Type: WOL Orientation: L-T Stress Ratio: 0.02 Frequency: 0.1 - 20 Hz

1 7175 h

Yield Strength: 66.3 - 70.3 ksi Ult. Strength: 76.8 - 79.3 ksi Specimen Thk: 1.25 in. Specimen Width: 5 in. Ref: MA005

AK (MPaVin) 4 10 40 100

10

10

.2 I— o o 10 c _

Z10

"o _« — 10

10

10

-6

_ I I I >lllll I I I M'l'l -1 — Environment: S.S.W.; R.T. —

— —

— —

— —

—

: V —

III I

-I , l,U< —

(3 of 3)

10

10

— io"2 ° 5^

o

10"3E

- 10"'\ o -a

— 10

— 10

4 10 40 100 AK (KsiVin)

AK (MPaVin) 1 4 10 40 100

10

-3 10

_aj — o 6-10-4

\ c _

10

"o _K — 10

10

10

= i 'I'm i ' i MTI J

10

_5>

10

— 10

— 10

o

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 3.99 (min) 4. 5. 6. 7. 8. 9.

10. 13. 16. 20. 25. 30. 32.21 (max)

0.537 0.540 1.00 1.88 3.32 5.44 8.26

11.7 23.1 36.4 66.4

145. 402. 922.

RMS % Error 10.90


i 1 1 1 1—

0. .5 .8 1.25 2.

RMS % Error


0. -r- .5 ~k 1.25


H 7175 I Condition/Ht: T73652 Form: 1.25 in. Forging Specimen Type: WOL Orientation: T-L Stress Ratio: 0.02 Frequency: 1 — 20 Hz

1 AK (MPaVin)

4 10 40 100 T 1 I I I 'HI—

(1 of 3)

= I ' I Tl'l . . . — Environment: Lab Air; R.T — 10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (l0-6in/cycle) 5.14 (min) 6. 7. 8. 9.

10. 13. 16. 20. 25. 29.64- (max)

0.296 1.04 2.68 4.98 7.56

10.1 16.5 24.3 50.3

166. 618.

RMS % Error 29.20


.5 .8 1.25

Yield Strength: 59 - 63.5 ksi Ult. Strength: 70 - 72.3 ksi Specimen Thk: 1.25 in. Specimen Width: 5 in. Ref: MA005

1 AK (MPaVin)

4 10 40 100

I ' I Tl'l

(2 of 3)

I ' I Tl'l — Environment: JP4; R.T. 10

10

ü \

10 E

10

10

o

— 10

4 10 40 100 AK (KsiVin)


10. 13. 16. 20. 25. 25.04 (max)

0.567 0.673 0.946 1.41 2.16 3.35 5.18

15.9 30.6 74.9

358. 361.

RMS % Error 12.53


.5 .8 1.25

Figure 8.16.3.1.25 8-944

Condition/Ht: T73652 Form: 1.25 in. Forging Specimen Type: WOL Orientation: T—L Stress Ratio: 0.02 Frequency: 1 - 20 Hz

^ 7175 h

Yield Strength: 59 - 63.5 ksi Ult. Strength: 70 - 72.3 ksi Specimen Thk: 1.25 in. Specimen Width: 5 in. Ref: MA005

AK (MPaVin) 4 10 40 100

i I i | ■ 111

(3 of 3)

4 10 40 100 AK (KsiVin)

AK (MPaVin) 4 10 40 100

10

10

JE — o o^10-4

Z 10 T3 tr

10

10

10

= I ' I'l'l'l I ' I 'I'll -1

—

10

— 10 E

Jio > ■D

— 10

-6 -d 10

4 10 40 100 AK (KsiVin)


10. 9.61 13. 19.7 16. 33.0 20. 76.6 25. 226. 27.58 (max) 408.

RMS % Error 17.63


i 1 1 1 1—

0. .5 .8 1.25 2.

RMS % Error


i 1 1 1 1—

0. .5 .8 1.25 2.


R ■\ 7175 I Condition/Ht: T74 Form: Specimen Type: CT Orientation: L-T Frequency: 10 Hz Environment: LAB AIR; RT

1 AK (MPaVin)

4 10 40 100

I ' I 'I'l'l

(1 of 1)

l- I ' I 'I'l'l — Stress Ratio: 0.1 — 10

— 10 -1

o \

-3 | 10 E

— 10 o ■o

-5 10

— 10

4 10 40 100 AK (KsiVin)


10. 13. 16. 20. 25. 28.48 (max)

0.248 0.323 0.651 1.27 2.35 4.07

14.3 30.6 50.5 97.4

213.

RMS % Error 14.29


i 1 1 1 i

0. .5 .8 1.25 2.

Yield Strength: Ult. Strength: Specimen Thk: 0.25 - 0.252 in. Specimen Width: 2 in. Ref: NC005

10

-3 10

_Q3

O

o 10

10 ■o —

10

10

10

AK (MPaVin) 4 10 40 100

i—i i i IHM—=q cr—|—i I i MM

, Mil, ' I I III!

— 10

10

-J10■ & Ü \

-3 I —ho E

-=|10 >

10

— 10

4 10 40 100 AK (KsiVin)


RMS % Error


0. —i 1 1—

.5 .8 1.25

Figure 8.16.3.1.26 8-946

I -7 17 ̂ I I / J ' P Condition/Ht: T74 Form: Forging Yield Strength: 72.4 ksi Specimen Type: CT Ult. Strength: Orientation: L—T Specimen Thk: 0.363 - 0.365 in. Frequency: 10 Hz Specimen Width: 1.498 - 1.499 in. Environment: LAB AIR; RT Ref: SW001

AK (MPaVin) ° of 2) AK (MPaVin) (2 of 2)

1 4 10 40 100 1 4 10 40 100

- I ' I Tl'l I ' I Tl'l ■L _ | i | i|i|i| | i | >|i|i| a

— Stress Ratio: 0.1. -= 10 — Stress Ratio: 0.5 — 10

10"2 __ ^

10"2 t —

_ 10 -1

10

ID"' -

a> io"3 - V _ —

<D io"2£ o o o o "° -6 TJ ~° -6 "D

10 10

— -5

10 -5

10

io"7 - io"7 -

— -6

10 — -6

10

1A"B " I , M.L ! ■ LI,I, - m-8 1 I 1 I 1 1 ll I , I,I,I, -

1 4- 10 40 100 1 4 10 40 100


AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 5.29 (min) 1.30 4.36 (min) 1.30 6. 2.20 5. 2.68 7. 3.66 6. 4.60 8. 5.26 7. 6.69 9. 7.07 8. 9.33

10. 9.23 9. 12.4 13. 18.7 10. 16.2 16. 33.2 11.98 (max) 31.6 20. 64.0 20.89 (max) 79.6

RMS % Life Prediction Ratio Summary RMS 8 Life Prediction Ratio Summary Error □ Error □

1.74 1 1- - T 1 1

0. .5 .8 1.25 2. 2.53 0. .5 .8 1.25 2.

Figure 8.16.3.1.27 8-947

F 1 7175 I Condition/Ht: T74 Form: Forging Specimen Type: CT Orientation: L—T Stress Ratio: 0.1 Environment: LAB AIR; RT

AK (MPaVin) 1 4 10 40 100

-2 10

10

o

6^10-+

10

o "° -6

10

10

10 -8

- i ' I 'I'l'l I ' I 'I'l'l -1


~"~ —

~"~ —

_ —

~~" _QTT —

—

- I , LI,I, I , I,I,I,

—

(1 of 2)

10

10

o

10"3E

— 10

— 10

•a

o T3

10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10-6in/cycle) 4.57 (min) 5. 6. 7. 8. 9.

10. 13. 16. 17.79 (max)

0.951 1.50 2.74 3.85 5.22 7.30 9.96

17.5 29.1 41.0

RMS % Error

5.84


i 1 1 ; 1"

0. .5 .8 1.25 2.

Yield Strength: 72.4 ksi Ult. Strength: Specimen Thk: 0.171 in. Specimen Width: 1.5 in. Ref: SW001

AK (MPaVin) 1 4 10 40 100

b I ' I 'I'l'l 1 ' I 'I'l'l

(2 of 2)

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10_6in/cycle) 1.62 (min) 2. 2.5 3. 3.5 4. 5. 6. 7. 8. 8.22 (max)

0.0545 0.0821 0.132 0.213 0.357 0.624 1.77 3.42 4.59 6.35 7.06

RMS % Error

. 8.77


i 1 1———i 1—

0. .5 .8 1.25 2.

Figure 8.16.3.1.28 8-948

i -> 17 rv I I / J I

Condition/Ht: T74 Form: Forging Specimen Type: CT Orientation: L—T

Yield Strength: 72.4 ksi Ult. Strength: Specimen Thk: 0.192 in.

Stress Ratio: 0.5 Specimen Width: 1.502 in. Environment: LAB AIR; RT Ref: SW001

1 AK (MPaVin) (

4 10 40 100

1 of 2)

1 AK (MPaVin) (2 of 2)

4 10 40 100

- | ■ | 'I'll 1 ' 1 'l'l'l -1

— Frequency: 20. Hz — 0

10 = I ■ I 'I'l'l I ' I 'I'M -L

— Frequency: 25. Hz ~ 0

10

lO"2

-i 10

lO"2

-1 10 —

(in

/cycle

)

W

to

(mm

/cycle

) lO"3

O

îo"4

\ c

-

o

o

i

i

(mm

/cycle

)

— —

Z10"5

x> \ o "° -6

10

— z 10 >

-5 10

zio"5

\ O "° -6

10

z 10 >

■a

-5 10

— : „

—

= I —

lO"7 -

-6 10

lO"7 ~ Jpr -

-6 10 -— If

10"8 " 1 , Mil. I , I , LI, - 10_B " I , I,I,I, 1 , 1,1.1,

1 4 10 40 100

AK (KsiVin) 1 4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 3.28 (min) 0.493 3.5 0.618 4. 1.00 5. 2.29 6. 4.38 7. 6.94 8. 9.20 9. 11.7

10. 16.2 11.42 (max) 21.8

1.75 (min) 0.0438 2. 0.0750 2.5 0.138 3. 0.215 3.5 0.367 4. 0.687 4.93 (max) 1.84


6.19 1 1 T -■ 1 1

0. .5 .8 1.25 2. 15.04 0. .5 .8 1.25 2.

Figure 8.16.3.1.29 8-949

F ^ 7175 I Condition/Ht: T74 Form: Forging Specimen Type: CT Orientation: L-T Stress Ratio: 0.8 Environment: LAB AIR; RT

Yield Strength: 72.4 ksi Ult. Strength: Specimen Thk: 0.187 - 0.19 in. Specimen Width: 1.498 - 1.501 in Ref: SW001

AK (MPaVin) 4 10 40 100

(1 of 2)

c=—1—i I i I i|

10

10

o

£io"4

10

10

10

10

i i 111in

Frequency: 10. Hz

i I iI Hi I I iI Mi

— 10

10

o

-3 | — 10 £

-J10 >

— 10

— 10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10'6in/cycle) 3.70 (min) 4. 5. 6. 7. 7.48 (max)

1.18 1.77 4.66 9.34

15.3 19.1

RMS % Error

1.49


, 1 1 1 1

.5 .8 0. 1.25

AK (MPaVin) 4 10 40 100

1 ' M'l'l

(2 of 2)

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10_6in/cycle) 1.61 (min) 2. 2.5 3. 3.5 4. 5. 5.98 (max)

0.0385 0.0997 0.203 0.454 0.993 1.67 3.05 8.07

RMS % Error 14.24


I 1 1 —i V

.5 .8 1.25 2. 0.

Figure 8.16.3.1.30 8-950

■\ 7175 Condition/Ht: T74 Form: Forging Specimen Type: CCP (max load specified) Orientation: L—T Frequency: Environment: LAB AIR; RT

R

Yield Strength: 70 ksi Ult. Strength: 79 ksi Specimen Thk: 0.25 in. Specimen Width: 3.95 in. Ref: MD002

AK (MPaVin) 4 10 40 100

-2 10

10

JE — o

fri o-4

\ c _

Z 10 ■o t

10

10

10

- I ' I M'l'l I ' I U'l'l A


— -=:

— —

— air -=

" /

—

— rj& —

~ a I i 1 111 It 1 i 1 111 It

-=

(1 of 1)

10

— 10

-2

_0J

io"2^ o \

-3 | 10 E

- 10 '\ o ■u

— 10

— 10

4 10 40 100 AK (KsiVin)

10

10

ü

u 10

Z 10

-o . — 10

10

10

AK (MPaVin) 4 10 40 100

1—I I I i mi— I III

i Mini J_J ' i 111ii

— 10

— 10

10 v

Ü

-3 I 10 E

10 o ■D

-5 10

10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (I0'6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 2.76 (min) 3. 3.5 4. 5. 6. 7. 8. 9.

10. 16. 20. 30. 40. 41.10 (max)

0.0651 0.0694 0.0912 0.133 0.311 0.711 1.49 2.82 4.86 7.65

30.9 46.9

129. 626. 829.

RMS % Error 27.15


.5 .8 1.25

RMS x Error


.5 .8 1.25

Figure 8.16.3.1.31 8-951

R ^ 7175 I Condition/Ht: T74 Form: Forging Specimen Type: CCP (max load specified) Orientation: L—T Frequency: Environment: LAB AIR; RT

AK (MPaVin) 1 4 10 40 100

(1 of 1)

10

10

5^10"4

c _

Z 10 "O tZ

"O _,; I— 10

10

10 -8

_ I 1 I 'Jin 1 1 1 llllll -1 - Stress Ratio: 0.02 "=

— —

—

—

4 —

— Jff —

~ 1 , 1,1,1, 1 , 1,1,1, —

-1 — 10

o \

-3 | 10 E

Jio > -o

— 10

10

4 10 40 100 AK (KsiVin)


10. 13. 16. 20. 24.00 (max)

0.140 0.155 0.247 0.447 0.819 1.45 2.43 7.87

15.6 35.2

121.

RMS % Error

8.62


0. —i 1 1—

.5 .8 1.25 —!-• 2.


AK (MPaVin) 1 4 10 40 100

10

10

O

o 10

10

10

10

10

- I ' I M'l'l 1 ' I U'l'l 3

10

o

-3 | 10 E

— 10

10

o XI

10

4 10 40 100 AK (KsiVin)


RMS % Error


I , , T— 1

0. .5 .8 1.25 2.

Figure 8.16.3.1.32 8-952


8-953

■\ 7175 I Condition/Ht: T74 Form: Forging Specimen Type: WOL Orientation: L—T Stress Ratio: 0.02 Frequency: 0.1 - 20 Hz

Yield Strength: 66 - 70 ksi Ult. Strength: 77 - 79 ksi Specimen Thk: 1.25 in. Specimen Width: 5 in. Ref: MD002

AK (MPaVin) 4 10 40 100

(1 of 3)

10

10

O

o 10

10

o "O -6

10

10

10

-- I ' I 'I'l'l I ' I Tl'l _L

— Environment: Lab Air; R.T. — — - —

— —

— — — A — — -

—

— —

— 4jP —

— % ~

_ « —

— — — —

- I , I,I,I, I , f , l,l, —

10

10

10

— 10

— 10

— 10

'■ o

o \

, E

TJ \ o

T3

4 10 40

AK (KsiVin) 100

AK (KsiVin) da/dN (10-6in/cycle) 3.67 (min) 4. 5. 6. 7. 8. 9.

10. 13. 16. 20. 25. 30. 35. 35.40 (max)

0.208 0.249 0.507 1.08 2.13 3.81 6.09 8.78

15.7 20.2 33.7 85.1

159. 224. 229.

RMS % Error 28.85


0. .5 .8 1.25

AK (MPaVin) 4 10 40 100

i i mi

(2 of 3)

4 10 40

AK (KsiVin)

AK (KsiVin) da/dN (10'6in/cycle) 4.02 (min) 5. 6. 7. 8. 9.

10. 13. 16. 20. 25. 30. 31.70 (max)

0.252 0.355 0.580 0.973 1.60 2.53 3.83

10.2 .19.5 35.4 64.4

275. 655.

RMS % Error 44.14


0. —i——i 1—

.5 .8 1.25

Figure 8.16.3.1.33 8-954

Condition/Ht: T74 Form: Forging Specimen Type: WOL Orientation: L—T Stress Ratio: 0.02 Frequency: 0.1 - 20 Hz

^ 7175 h


AK (MPaVin) 1 4 10 40 100

1—I I M MM—

(3 of 3)

I ' I TH , , , — Environment: S.S.W.; R.T. 10

— 10

o

10_JE

AK (MPaVin) 1 4 10 40 100

10

10

10

.."O

T3

4 10 40 100 AK (KsiVin)

10

10

o 6-10-4

\ c _

10

10

10

10

-5

- I ' I 'I'M I ' I 'I'l'l3

10

— 10

o \

-3 | 10 E

- 1CT\ ■o

— 10

10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycie) AK (KsiVin) da/dN (I0"6in/cycle) 4.03 (min) 0.525 5. 0.997 6. 1.89 7. 3.33 8. 5.42 9. 8.19

10. 11.5 13. 23.0 16. 36.6 20. 66.1 25. 141. 30. 388. 32.20 (max) 886.

RMS % Error 13.14


0. —i 1 1—

.5 .8 1.25


—i 1 1—

.5 .8 1.25 2.


E ^ 7175 I Condition/Ht: T74 Form: Forging Specimen Type: WOL Orientation: T—L Stress Ratio: 0.02 Frequency: 0.1 — 20 Hz

-2 10

10

_0>

Ü

o 10

-5 10

o ■O -6

10

10

10

AK (MPaVin) 4 10 40 100

1—I I 11 im—

(1 of 3)

t I ' I 'I'l'l Environment: Lab Air; R.T. -rj 1 °

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10_6in/cycle) 3.88 (min) 4. 5. 6. 7. 8. 9.

10. 13. 16. 20. 25. 28.90 (max)

0.102 0.120 0.414 1.11 2.43 4.48 7.18

10.3 18.0 23.4 48.9

231. 468.

RMS % Error 44.39


0. —i 1 1

.5 .8 1.25

Yield Strength: 59 - 64 ksi Uit. Strength: 70 - 72 ksi Specimen Thk: 1.25 in. Specimen Width: 5 in. Ref: MD002

AK (MPaVin) 4 10 40 100

I ' I 'I'l'l 1 ' I 'I'l'l

(2 of 3)

— Environment: JP4; R.T. — 10

— 10

V

10" 2o

u \

10~ 'I v—'

-z. m~ ̂

u ■D

10

10

4 10 40 100

AK (KsiVin)


10. 13. 16. 20. 25. 25.30 (max)

0.590 0.681 0.958 1.45 2.26 3.53 5.46

16.6 33.1 79.1

344. 364.

RMS % Error 14.66


0. —i 1 1

.5 .8 1.25

Figure 8.16.3.1.34

8-956

Condition/Ht: T74 Form: Forging Specimen Type: WOL Orientation: T-L Stress Ratio: 0.02 Frequency: 0.1 - 20 Hz

AK (MPaVin) 4 10 40 100

' I M'l'l 1 ' I M'l'l-

(3 of 3)

4 10 40 100

AK (KsiVin)


10. 13. 16. 20. 25. 26.80 (max)

0.263 0.282 0.571 1.17 2.24 3.92 6.26 9.17

20.2 33.7 72.1

351. 517.

RMS % Error 34.34


—i 1 1—

.5 .8 1.25 —!-■

2.

\ 7175


AK (MPaVin) 1 4 10 40 100

10

10

o 6^10-4

c _

-z. 10 T> tZ

10

10

10

-7

-Ml M'l'l 1 ' I M'l'l—=

— 10

io"2£ ü

— 10" E

10

10

o

-6 — 10

4 10 40 100

AK (KsiVin)


RMS % Error


0. .5 .8 1.25


8-957

R \ 7175 I Condition/Ht: T74 Form: 2.4 in. Forging Specimen Type: TDCB Orientation: L—T Frequency: 0.1 — 10 Hz Environment: LAB AIR; RT

Yield Strength: 69 - 71 ksi Ult. Strength: 78 - 79 ksi Specimen Thk: 1.25 in. Specimen Width: 5.5 in. Ref: MD002

AK (MPaVin) 4 10 40 100

i I i | ■ |) I

(1 of 1)

4 10 40 100 AK (KsiVin)


10. 13. 16. 20. 25. 30. 35. 40. 46.40 (max)

0.595 0.725 1.34 2.24 3.44 9.22

18.8 38.3 75.9

132. 211. 319. 514.

RMS % Error 61.11


0. .5 .8 1.25

AK (MPaVin) 1 4 10 40 100

i- I ' I 'I'l'l 1 ' I M'l'l ="

10

10

Q) —

o _ 6-10-4

c _

-5 10

o "° -6 -

10

10

10 J_J I I I I III I

10

10

o

-3 | 10 E

10

10

10

o x>

4 10 40 100

AK (KsiVin)


RMS % Error


—i r—

.5 .8 1.25 2.

Figure 8.16.3.1.35 8-958

Condition/Ht: T74 Form: 2.4 in. Forging Specimen Type: TDCB Orientation: L—T Frequency: 0.1 - 10 Hz Environment: L.H.A.; RT

■\ 7175 R


AK (MPaVin) 4 10 40 100

(1 of 1)

10

io-3

_Q> I— o 6^10" \ c _

-z. 10

10

10

10

-7

- I I I 'Pill I I I llllll -1 — Stress Ratio: 0.2 —

— —

—

□ —

— m

—

Z c — an

—

— —

" I . I,I,I. I < :' -=

10

io"2^

— 10 E

10

— 10

AK (MPaVin) 4 10 40 100

10

10

-2

4 10 40 100 AK (KsiVin)

o 6-10-4

\ c _

Z 10 T3

-o . — 10

10

10

= I ■ I M'l'l I ' I 'I'l'l 3

— 10

V 2 TZ

10 Ü

o \

,E 10 b

^—' 2

m~ ̂ U

"O

— 10

— 10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (10"6in/cycle)

RMS % Error


0. .5 .8 1.25 2.


i—

0. —i ; 1—

.5 .8 1.25

Figure 8.16.3.1.36 8-959

R H 7175 I Condition/Ht: T74 Form: 3.1 in. Forging Specimen Type: TDCB Orientation: L-T Frequency: 0.1 — 10 Hz Environment: DRY AIR; RT

1 AK (MPcVin)

4 10 40 100

(1 of 1)

- | ' I M'l'l 1 ' I M'l'l — Stress Ratio: 0.4

-2 10

10

ü

10

\ D

~° -6r- 10

10

10

c

□ 0D

t I I I'll

a

□□

' i 'iHI

10

— 10

o

— 10 E

Jio > XI

10

— 10

4 10 40 100 AK (KsiVin)


RMS % Error



.5 .8 1.25

AK (MPaVin) 4 10 40 100

10

10

u 6-10-4

10

X>

10

10

10

TTTl 1 ' I M'l'l

I ■ U.li I I 1 Mil

10

10

Q>

10~ 2Ö

o \

10" 'I -~^ -z.

10 \ u X>

— 10

-6 10

4 10 40 100 AK (KsiVin)


RMS % Error


0. —T~

.5 .8 1.25

Figure 8.16.3.1.37

8-960

Condition/Ht: T76511 Form: Extrusion Specimen Type: CT Orientation: L—T Frequency: 20 Hz Environment: DRY AIR; RT

-{ 7175 h R

Yield Strength: 64.2 ksi Ult. Strength: Specimen Thk: 0.494 in. Specimen Width: 2 in. Ref: RI008

AK (MPaVin) 4 10 40 100

10

10

ü o 10 \ c l_

Z10"5

"O _fi I— 10

10

10

-7


— —

: —

— —

— ffl —

— —

_ I , LI,I, I , l,lil<

—

(1 of 1)

10

— 10

_0J

10"2« ü \

10 E

-Jio >

AK (MPaVin) 4 10 40 100

.-2 10

10

-5 u o 10 \ c _

— 10

10

4 10 40 100 AK (KsiVin)

10

"O _E — 10

10

10

_ I , I .,.,.l I . I.,Ti _1

— 10

10"2 P ü

io"E

10

— 10

— 10

D ■o

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (I0"6in/cycle) 3.16 (min) 0.289 3.5 0.418 4. 0.672 5. 1.45 6. 2.65 7. 4.38 8. 6.70 9. 9.54

10. 12.7 13. 23.2 16. 42.0 17.88 (max) 57.2

RMS % Error

2.13


0. —i 1 1—

.5 .8 1.25


0. .5 .8 1.25

Figure 8.16.3.1.38 8-961

F ^ 7175 I Condition/Ht: T76511 Form: Extrusion Specimen Type: CT Orientation: L-T Stress Ratio: 0.1 Environment: DRY AIR; RT

AK (MPaVin) 4 10 40 100

(1 of 2)

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10~6 in/cycle) 3.17 (min) 3.5 4. 5. 6. 7. 8. 9.

10. 13. 16. 17.12 (max)

0.266 0.380 0.607 1.30 2.39 4.05 6.38 9.32

12.6 23.9 44.2 54.7

RMS % Error

2.43


i 1 1 1 1

0. .5 .8 1.25 2.

Yield Strength: 64.2 ksi Ult. Strength: Specimen Thk: 0.245 in. Specimen Width: 2.004 in. Ref: RI008

AK (MPaVin) 1 4 10 40 100

(2 of 2)

-2 10

10

_aj I— o

6-10-4

c _

■Z. 10

"o _* — 10

10

10

- I i I 'I'l'l I ' I Tl'l A

— Frequency: 30. Hz ~

~~* -3

—

~" —

— Jr —

— rjP —

-* , LI,I. I , I,I,I, —

— 10

<D

10" 2ö

o \

10" 4 —' z:

4 "° m \ u

XI

— 10

-6 — 10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10-6in/cycle) 1.64 (min) 2. 2.5 3. 3.5 4. 5. 6. 7. 8. 9. 9.88 (max)

0.0182 0.0675 0.154 0.234 0.330 0.486 1.11 2.21 3.64 5.14 7.00

10.6

RMS 5? Error 14.37


—i 1 1—

.5 .8 1.25 2.

Figure 8.16.3.1.39 8-962


8-963

—1 7175 I Condition/Ht: T66 Form: Forging Specimen Thk: 1 in. Specimen Type: DCB Specimen Width: 5 in. Orientation: S-L Ao: Yield Strength: Kjscc: Ult. Strength: Ref: 78313

Kmax (MPaVin \ (1 of 1) Kmax (MPaVin)

1 4 10 40 100 1 4 10 40 100

- I ■ I T|'l I ' I 'I — Environment: Wet 3X/day _ 3.5« NaCI

with — io2 - I ' I ' I'l'l I ' I "ITI

102

10° 10°

— 1

10 — 1

10

IQ"1 - 10"' — o ^- 0^

L_ 10 3 u

10 ^ o

°10"2

\ c

m Jio"2

\ c

\ -i E

10 E = f/\

j*F

^10-3

-a \ o "° -4

10

~ / - -*-. 10~3 - ■*-•

Oman =

■a \ o "° -4

10

—

—— -3

10 -3

10

ID"5 10-5

— -4

— 10 10

.n"8 " I ■ I,I,I. I , I,I .1. - m"6 ~ i , I,I,I, I . III.I. 1 4 10 40

Kmax (KsiVin) 100 1 4 10 40 100

Kmax (Ksivin)

Kmax (KsiVin) da/dt (10"3in/hour) Kmax (KsiVin) da/dt (10' 3in/hour)

2.00 (min) 0.658 3. 0.593 3. 0.657 4. 0.793 A. 0.988 5. 1.54 6. 2.29 7. 3.18 8. 4.13 9. 5.05

10. 5.85 13. 7.10 16. 7.59 20. 9.89 21.50 (max) 11.8


10.66

Figure 8.16.3.2.1 8-964

Condition/Ht: T66 Form: Forging Specimen Type: DCB Orientation: S—L Yield Strength: Ult. Strength:

7175

Specimen Thk: 1 in. Specimen Width: 5 in. Ao: Kjscc: Ref: 78313


4 10 40 100

10

10

10

°10"2

-w10

D -u

10

10

10

-5

— Environment: Wet 3X/day with — _ 3.5« NaCI -

— —

□ —

_ Uu

—

— —

— —

Ill I

I , I,I,I, —

10

,0°1 ,o-i

- _,.TJ

Kmax (MPaVin) 1 4 10 40 100

10

— 10

.-2«


10

10

3 . — 10

c —

10

o •a

10

10

10

= I ■ I M'l'lI ' I ■ I MM a

10

— 10

,0'1 ,o-I

10

— 10

4 10 Kmax (Ksivin) ivin

0 100


RMS % Error

RMS % Error

Figure 8.16.3.2.2

8-965

^ 7175 I Condition/Ht: T736 Form: Forging Specimen Type: DCB Orientation: Yield Strength: Ult. Strength:


- 2H = 0.50 in.

10

10 -1

L. 3 „ — °10

*>10~

-2

O

10

10

10


4-10 40 100 1 | 'I'll 1 ' I Tl'l

. inn

mm mm m

I ■ I.I.I

10

10

0 i- 10 s s: \

-, E 10 E

-2, 10

— 10

— 10

o T3

4 10 40 Kmax (KsiVin

0 100

)


RMS % Error


1 4 10 40 100

10

-1 10

3 2*- ° 10 2 p_ \

-M10~3

o

10

10

10

E~T'1 1 'I'l'l 1 ' 1 'I'l'l -1

- 2H = 0.928 in. "=

—

— -—

— —

—

mmm —

— mm

—

Ill 1 1 , 1,1,1, —

10

— 10

o »- 10 1 A

— 10

-3 — 10

10



RMS * Error

Figure 8.16.3.2.3 8-966

7175

CO

CO

CO

K

3

u « «0 ■>— o © © © © © © © ©

© CN m K to ©

to ©

M CO

■ SO cc

CO CD

o C5

© © C5

o o © C5

o o C5

o CJ

CN TO we* ■ SSSS: © HH

© l-H

\t» t~ t- J ►4 KJ •J J J •J ►J •J Ä: CO (JH 02

4« e C3 Ö3 sSjjjg: t- t- r- t» t» t- t- t» t» W$& CN : «O to to to to SäSOK ssce c- t- t» t- t- t- t- t- t- t> t- Sit*!: :s**; t- t-

SSO* SSWf *>*& 05 03 OJ 03 OJ 03 03 03 03 «3 03 iSOS* SSSOi: 03 03

Tes

t T

ime

(min

) © © o © © © © © © © © ip © © •>»Xj>:- ■>:•»:£:■> ■:■:■:•>:£:■: 00 00 00 00 00 00 00 00 CO »W'iV ■* «J* ■«** © ©

X - • •■■. x • iiiilli; CN CN CN CN CN CM CN <N CN » t~ rH rH CN <N >;Xv:*:y ■»:-:-:*:■:■ C3 C3 OS 03 Oi 03 OS 03 OS :■:■:■:■:■:*•:■: i-l tfi to to to

00 00 00 00 00 00 00 00 00 to WM JsSSS t- t-

s to

ss-y* assy« *% rH CO CN

i-i CO

CN 10 ©

CO »O

1H

© 00

«5

CN 'mm

lO

CM CN TO CN CN CN CN CN CN siS?i rH CN CN

*—\ :;:::::;:::;::::: e

hfl S £ /■Ä ■ ■

■ i

i i

t ■ 1

1

i

i

i

i

t

i 1

ras** ■:■:•:•:■:■»:■:■ :•:•:■:■:■:€■:■: ■*

■•'* mm s

** § c ^' t» t> CO

03 i-l ©

CO 03

TO 03 03 03

TO i-l

iH 03 f i f i . ■ 2 .« r N W

■O : o o © i-l © © © © i-l y-4 © ' 1

t i ' 1

u

Pro

d

Thk

(i

n)

. '*■■•'

:•:■:■:•:•*:•:■ * ;■:•:■:•:■:*•:•:• ■*

$:*::::S:$ *

TO rH

TO TO rH

CO

r-J TO i-i

TO rH

CO

1-i

TO 1-5

TO rH

■:•:■:■:■:■:*:•:

* «P <D CO to

.M

C

.2 9 -s » H

If!! •■r*.. T-*

1»

© t-t *-( rH rH

■!•!■!■!•!•!■!■!-

« JS ■:**■:*>* ¥:¥:%¥:■:

a •*» O lO U3 io »O «o ia lO \a to XO lO ns fi :;S3E& «J : «5 t~ t- t~ t» t~ t- t- c- r- JO o tt l*"w ■* ■* -* •* •* -v ■* TC •* tt> lO : IS «a

OS :■:**?>:* *>#>:*: :::::::;:::::::;:: ft:::::::;:;:::: &:*:*:*>: #:$:%?■ :*:¥&* •:-:-:-:-:*x-: :>-::x-:-:-S:

& m 03: ."« m m oa n m m n CQ OQ « EH Ä « CQ m

IB ..o o tm& u u o ü u u o O O ::;x§t::: O a C Q IÄ lllf P ° Q P P a p Q Q Q iii IMilft P p

i ;>>:;:|:;:;:;:i:;;;:;:;:;:;;|:S:

<2 U o U WftÖÄÖftKftWÄO

m

> «

SB • . 03 IIIÜII

fa

CO

Ü co'

e ■«> : ■■ IS § .-.«

.:■■. ■»■■■.•. CO ■TO TO IBIB

Yie

ld

Str

(K

si)

CD 1 1

03 lO CO

lO to

0 tl

0 9

!* J J H HH E H &° CO CO J CO t- 3

Tes

t T

emp

(°F)

EH E-i e -i E H

OS OS 0 * P »

"ö 8 fa fa & -1 E> ■i

"S "S 0 « i-i c a !§£ to rH

to 5 3

if tc

3 3

'S ■» 0 «

H CO r- E- H

3

OB

8-967

7175 m

00

9

h CD

3 11 ■

*S©2: ■ ■I o ■ to o ©

IO o c>

wies ©

sixes o o

CO © ©

PS

CO o ©

CO © © HH

CO © ©

05

mm mot

©

in ©

in ©

HP

:te: ■ ■*»: .;■*»:

OS :; rH

to S8*wS

a» 03 rH

03 rH

t-:;

s*s*s P3 TH ■rH

CO t- 03 rH

CO t- 03 rH

CO t- 03 rH

CO t~ 03 rH rH rH

03 T

est

Tim

e (m

in) o

■■!■!■:*&*:

SKCOS *•■«

rH:

o m CO

MM m cr>

o

sSSfts co CO

O (N CO 00 ■<*• 1-4

o ON eo 00

o 00 •V CN CO TH

wise? <N

© 00 CO CO CO rH

© 00 CO CO eo rH

© 00 CO eo eo rH

© 00 CO eo eo rH

©

S¥ffl»S CO

■rH

eo CO

rH

© 00

CN CO rH

© 00

CN CO rH

ß so ■«-+ Of A

SO

si A

rH A

00 co r-l A A

<0

iSSrSS .A

<N CN

CO rH A

IO 03 rH A

M CO rH A

rH rH rH A

CO

t> rH A

9 »•is

3 3 4 3 ; ■ 1

• * ■:-:-:-:-M-:-: © © © O ■:-:-:-:-:-t:-:-: ■:■:■:■:■:■>:■:■:

I

i i

i i

Cra

ck

(in)

:•:•:-:•:-?■:-:■ ¥:::ö:i:¥:

* ■ . .-■- *

:■:•:*:■:•*•:•: ■»

::::::::-:V::::

■»

eq 1-H rH

:■:■:■:■:■:+:■: •• rH

'rH^

■ I I i

i

I I

rH ;.- 't-H ■

00 CO co

rH

Pro

d

Th

k

(in)

mil |||§ to to w CN

in CN

to

■rH rH CO CO CO CO

•H

in

r?

in <N r-i

in CN

C

a

a CO

T* r* '. r* ^TH-

CN in CN r-i

CN to CN r-i

IIP :•:■:■:■:-:■»:•:

TH ■:•:•:•:•:■:+:■:

TH

rH rH rH rH

:00

CM •:•:-:■:•:->:•:

:rH

00

CN

00

CN

12 .S ill to in

:•:■:■:■:■:•>:•:

»n

in 00 © CO

00 o 09

llis rntm ■:-:■:■?!<■:■

CO

■::O0 © «3

IB id

in in

iq in

in in ■© ©

05

03 © CO

CO 00 o CO

OB

a 1 lip « IB o IB PQ Q Q

m o p

m a

a Q

IP 1»

O o PQ

Ü Ed

'S s

i a.

wmw® rS

CO

*5?

1

a»

CO 0)

CO

Yie

ld

Str

(K

si)

00 ^ in CO CO

CO

in

m

CO w

EH

CO

Tes

t T

emp

(°F

)

«8

* a fail O

.2 2

1 « O CS

OBJ

03 ^, Iß TJ

2 §

8-968

7178

CO

Ö

c eo lO CN CN 1 (

HJ coo

ec ■* fH ■*

cc © 6 o" 6 1

co iq CN

0

1Q° t-H

CO 1-1 ' *

O •P4 e o CD CO 10 1 IO

1^ 5 a w

•a 3 •c o • a a CO

CN CO 1-i i

s> 0) ,«»

tf s iq rH iq CO N

V |« •-H m CO CO j OS V CN CN rH CN i-H

fi «O CO l

CO CN ■

EH en 00 O) P5

•J QDQ i-i i-5 6 ©'

W CO IO C-;

1* «5 l> J © IO j CN IN P5 «

-*J a © S

■*»

CO a> ti H cö i-H

IO IO co t- H

o i-H lO CO H

© i-t IO

i-H IO

o l-l IO

Ü co

H

co

H

CO

H

o •l-l ■*» •P« •o a o ü

■**

9 fi u c i*

a 03

o o u En

4->

s Ed ,o

PH fe

8-969

7178

o

CM

CO

a

<

o

1 s

i O

o

fa

08

©

•43 OS

6?

3

K 3 o

If m mm

$&■

111 3 TO 00

!Sil =

i: Ed :: Ed \ X

03

8-970

7178

CM O

CO

9

SB

O

■ ■

to

Ö

O

3 l-H

o

10 o d d

EH m a- x CO

*-*

s 8-971

7178

o

03

CO

o

ti 5

l-H

■-*

ip IT*

«? £

::;.-::;*«s>.

«ill! ■IP ü o io 04 05 5 05

IO 00 00

5 4 1

III 01 o »-H

05 00

o IO 10 •■4

03 00 § to

•s um 11111111

■ ei oi 05

00 00

oi IO

IO

3 05

io' I-H

OI i-H

05

©a

I-H

I-H

<* i-H

00 8 io 05 05

io OI

i-H

W Illlli **<

>* o> k~H

,;:::::;;*>:-x*!vfo>: ©■ OS 00 I-H OI «J i KJ o o rH o o o

o i:W:-:-:::

«

H ■::-C?>-.:v' CJ OI

£3 N illlillll »-H io 05

I-H i-H 09

TC

d

o i-H

d i-H

d i i IÖ

0* IO

OJ IO

&I '""'

$& ©J o d

0« © d

O d

O d d

IO

d IO

d o d

d o d

o d

04 O d

o d

05 OS

d

05 05

d 05 05

d

lljl^liilllll &* Ed £ Ed

|l Ed X m

Ed X at

5 OH

Ed X CO

<

H & J

Z O M *^&ffl:&$&#&&&& H ■ |H ' <

.^|v-- ■S**^-

O

8§

S I-H IO

03 IO 03

8-972

7178

•

CM O

O

CO

c4

00

fag

> cu

QH |S BO faO QH

i o

I

I

■a

H i

• •

O

|

H

o

m ©

mi ÜI

«up s

« «

sasB

UMMMM4MMMWM

itf:;i

1 53

P5 < CO

a H Q D K

to

8-973

7178

«4-1 O iii

HI

mm mm «1

I

si«!

■ i::*

§

1!

sits*

M*MMMMMMM4MH44m

00 iÄi o

Ö

C5

1

H • •

O

o

8-974

7178

CM o

i

CD

IS

w :"*

J

I

W

HI

63

ft.

Ed

a.

mm

8-975

7178

CM O

CD

CO

I

Ml

CO :*Ö5.'| O

d

• •

O

5 w I 5 §

8-976

< Q

7178

00

«

is .,5

•as as

z g m u a

6- Ü

6- U

- a CO

i*

a

9*«

1212 £ BS «

ob

fr- ei PS

o 2

2 s

0 u

8-977

01

H

as a

a

M

3> IS

î£

§i- 2^

Z o

a

fr- ei

«so £ =

[•2*

3gf

P a § a.

§5°

o

ob

si

z o

8 S3

8-978

7178

CO

a 3

a: PS

«H CO PS O CO © O © © eo © o CO

u O U u o U O a U u U u O u Ü CN U U

g CD 00 g 1 1 g Si Si Si g CD

00 g CD CD § CO

00 g g g g CD CO g g CD

00

IS PS 00 S° 00 CO 2 00 CO

< a en a cn en A cn o» Cft Cft cn en cn cn a

Is CN ©

4 PS CN

eo

* Ä o o g © o © o © © o o © o o c- CO CO ^* CO CO CO

co CN CN

PS CN CN CN

US CN

Cft cn CO CN s s a a a CN

CN CN CN CN

CN CD c- e- t- t-

QQ

o h e 4

35 8 S 8 s CN CO

00 CO § s 8 8 s 8 8 CN CN CN US c- w C0 t-

e o O o O o o © o © © © O o © O © © O o © © o ©

g E- CN ■V CO CO 00 © © US © V U3 e-

S£J« a

8 o CO ■"0" g CN

us CN US s 8 3 s 8 $ a s s 8 8 o V ■V s *o< i CN CN o o o o © © o © © © o

Z

tf u — P ~j — p — H t< — £Q t« E-« B s g s E- H H H H H E-. 00 M Q

z z Z Z z Z u o z z u U Z Z Z U u u O U Ü Ü

CO z

Bo SOB

s ^ _ « cn *-< © ,_ ,_< OS Cft o © © © o

o S 3 9 s & & 8 8 g % 8 8 8 8 $ £ a a a is K Ed CN CM © O Ö o Ö © «-• T-t i- o »-C «-» »-< t-i o d © o © ©' ©

a. 1 M

E- CN © © © 00 © CN © © o o o © © CN o *c i .s* 8 8 £ 8 8 ig a 8 8 8 8 $ 8 © 8 8 8 £ 8 8 o 8 8 Ö

■»w

-V V O *■* ~ o CN CN N CN CN •" CN CN CN CN CN

1 s*= 00 00 es EN CN CN Cft eft IO US 00 00 CO CO CO

CO CD CD CD CD CO CO CO CO CO CO CO CO C- c- t*- t~ t- t- e^ t* t» t- CO CD

H K ►J »2

fe° Ei c6

6&s: H £-;

eg1 K K

§2 s s 8 s s 8 8 S 8 8 5 s? R 5 8 6 s So s CO eo eo £

B s Q

E = CN C4 O o o o

O os 53 « ft.

£ at E

si

E

z o s us

CD us CD

o o

8-979

7178

M

a

3> is

•fail

50

*

g

z g x a 0

o

co

a

l-S*

5o s £T gig«.

P a

6.

s?

O

Z o

o u

6

6- O

E" Ü

E-> E* PS

J E^

E"

ab

E«

J E^

E-

E-

5 x B

5 ■a a

8-980

r-i CO

w

a

eo eo CO CO CO CO CO CO eo

8 CO CO © © CO CO CO CO CO CO CO CO CO CO

1 CO

3 en © en en en en en en ©

5> go

„ © o . v o o eo © o

o 4 to o CN CN

tä CO CN

CO CN

© CN

CO CN

CO

* ^ o § •w 03 t» CN o CN © ID en CN CN O e- en CD CO

CN CM CN CN CN CN

V

a Ui e • 00 v

10 5? £ 8 3 CO « U

« '■T o o o © O ©" © © © o ©

? S

GO c- 10 CO CO c- to ©

3 45 $ $ 5 5» 8 8 & s CO s

6 © CN CN © ©

2

tf g H s B ffi p H H E-. H H E-

a u z Z z z U U U u o Ü

00 s^

g- »OB r» s .-H _ ^ _ o © s CM

t» CO CN CO

CN CO s s £ g

H *"• r* «-* »•« «-1 o o *-■ 1-» © ©

a, 1 ce SB o © © © © © © © z i-s* s 8 S 8 8 8 a 8 8 a fc

g 5 w CO CO CO CO CO CN CN V TT •-I •*

R ^ 9|5 © 10 to CO CO ^ ^ eo CO ■*■ ■v

to CO s © CN CM ■*• ■v CO CO © © t- e- ©

w « «3 F J J £H .J

§s° fc- i E C lb J) oh

gSif? H c o c 0 CO ©

^ IS ^ K c 0 a 0 c 0 CO CO

B? s s a 8 8 8 8 8 H O S~ CN CN CN CN

s e o c C

ft. p

3 1 I i 2 : w G J & 1 U ■J W w

z o ^ _ •M

fc lO t 3 L i IQ to

2 p f P P e £ 8

8-981

7178

as

S

rf

W

«4

CO

W

00

"3

5> is tfS

(TS

5>

J!

la. b

;£*

Ö Q

§ a.

P. o

eg*-

I?

o b

8-982

o ü CN CN •

CO

W iJ

CO CO CO eo eo eo « © m CN CN CN CN H

g CD

QO CO CO CO CO CO as CO CO CO © CO CO

1 E? £? S? J2 l> C- t- l> ©* < en © © en en en a> en en

a

rf

5> fea

c o U

w CN

to CN

tf| 1 ©

IS * o © £3 © CN IO « ©

i o> © to CO «0 «C © © CM ©

s © CO © © © © 10 © 10 •u« 10 10 IO ir •cr v V © N"

a 0. <*

*

fea 1 i> ' CO CN

^1 1 to CO

t- tt ©

^ is _ V to V* r* eo «*• CN © IS- © to © t- © CO © o © CO © © V

*£ 'O CO r- t- t- © »■ eo © 8 :g ^0« ■V V CO eo CO eo

t? 3? j is>?

l:F: © © © © © o g © g CO HO CO lO CO e- "O* PJ CN CM 1Q

»8 OS ■■£■

2

B

© © © C- © CO CO CO eo CN CN CN CN CO CO CM CN © « ©

j i i j i : \ ; , i i I t J I i o :f:ü-

^ «■B-

FIN

AL

(I

n.)

2a,

#W (^5 »«■ g Q © o o © © © © p

si- 33 ::>::6C ;;■:©

■-S

s CN CO CO

o CN s c- K g 8 K CN CO CO t- e» s a s

| eo © « © © o o o

p si« o 8 § s

© s

© s § o

8 ©

8 © 8

O

8 O 8

© 8

©

8 o s

© CN ©

CN CN ©

CN ©

S3 ©

8 to

* CO w eo o O © © o

2

TH

ICK

(I

n.)

B CO © to © V «P V ^

as

CN CN CM CN CN CN CN CN 8 8 8 8 8 8 8 8 8 8

g © © © O o O O o O O © © © O © O O O o

s - 9 © © © o o o o o © © O o © © © © 0 9 0. 1 i* g © X X X X X X X © © © © © X X X g s CO * ~ CO CO eo CO eo eo CO eo CO 10 to © © to CN CN CN CN CN

Sgi n CO CO eo to lO to IO to © © © © © » © © © © C- t» t- gBS e* t» CO CO CO CO CO CO CO © © © © © e- t- e» t» •>

K « Sj

H •J

g3° Jt t^

6SJC 30

H* ^ IS ^ «- 03 ° BJ K

6 22 CM N CN CM CN CN CN CN CN 8 8 8 8 8 8 8 8 8 8 p- O O © © © O o © © O © © O © O O © © o

Q

a. § 1 1 0 ■= o

CO u

§1 si u

S B

8-983

7178

es

g

M

o ü

iH

00

a 3

B3

I 5> 2 « feQ

*;

tf?

5>

J

IS» 8«*

9.7 * g -5 N b

is* a o as

■2*

Bis

K JS o. o 60

s o

o Et

§1 SS

81

K

03 U

8-984

o

CM si • 1-1 • CO

a

OS eo co CO CO CO CO CO CO CO CO CO CO CO © CO CO CO

CM CM ^ CM CM CM CM CM CM CM o; CS CS CM

g % GO CO CO CO CO CO CO CO n © « © © © © ©

I £3 CO CO CO CO

g f3 3 © en © © © © © © © © © ©

3"* CO ^ V o O

feo o CM o V

rf rfi C

O O

O

d ©

CO

C-* CM

©

CO CM

» CO

s to o § rf* w © CO CD CM © © © © o CM © t» eo <o CO to t> © t- e» u

£ CM CM CO CM ■*• V ^

5> 5 ta "P

V o G0 C* e> -

a a •

fco O © © ©

4 o CM © to

C-; © CM*

K ^

fi- t» *M CO CO © V CM CO fe CO CM CO © « © ^r © o © CS. t» «^ P? sc • :J"D w ^« V o CM ©

8 5SS' * ■** V V CO CO CM CM CM CM CM ■w ^

rf f:S

111 o o © o © © o © © O O ©

■V © © CM © © ©

so si OS E OS

SSW: © CM

Ifl CM

o> CM CO

© CM CO CO

P0 CM CM

© © © © W

; : , ! ! j : ! ; j ! ! I

0 s:a;-

FIN

AL

O

n.)

Ja, Ä ««. O O o © © O o o o © © © CS

t^

33

It £ CO Si &i T CO $ K s S B S Si S & S ^ ~ ~* © " V to --. •-> CM «-■ — «- CM -- © © ©

Ö W:6'

§ fco . s = «

:Wh: o s § © o 1 ©

8 o s ©

3 © s ©

CO o CM

o © ©

©

S3 O © ©

8 | §

3 = B" ""* *-« CO •"* •V to *~ ""* *"■

r" *■"

^ •-» <-. t- f- t*

z

TH

ICK

(I

n.)

B CO CO © IO to Iß © V V3

3 g £ 8 g s Si a CM SI s S S3 8 8 8

ü

o o © o o © o o o © o o © o •" -" •" M

w |I> Ä 1 o 8

o CO

© CM CO

o CM CO

o CM CO

© CM CO

© o R g © s § O

R g i § | <e CO CO o o o

C4

9g5 o o to w to © © rt W IO © V -«■ ■* « 1 e^ Big CO CO CO CO CO CO © *8« V c- c- GO © c- f 00 1 CD © t^ e* e-

w g 33 J t" J J H

fe° r~ J fi *i J

TE

ST

TE

MP

C

F)

E-" E-; E-; e-: ^ « K K K «

6 B7 CM 04 8 s 8 8 8 8 S3 s 3 a S5 g 8 8 8 B~ O © o o © o © O © o © o © ©

a Q

0. o 11 to u

1 CO

a E

* o E

"a E

B E

§1 : H g •a ^ no ■-<

12 c

is : fc- s e 12 e

8-985

7178

*

so r-

oo

a 3

00 H

»a

Ed ft« OQ

I 5> fen

&?p

tfl

2>

J

o

3-» - b

lirf as"

B e SB

ist

a § a.

9||

u £ B. O IS

|6c eg8-

is

o b

SI

Ö

8-986


8-987

-H 7178 I Condition/Ht: T6 Form: Sheet Specimen Type: CT Orientation: L-T Frequency: 9 Hz Environment: H.H.A.; RT

1

10

10

o o 10

10

o T3

10

10

10

-7

AK (MPaVin) 4- 10 40 100

rrrm—

(1 of 2)

i i i I nil 1—r


4 10 40

AK (KsiVin) 100

AK (KsiVin) da/dN (10'6in/cycle) 3.09 (min) 3.5 4. 5. 6. 7. 8. 9.

10. 13. 13.11 (max)

0.129 0.121 0.184 0.708 2.37 4.99 7.33 9.07

10.5 13.9 14.0

RMS % Error 23.67


0. —i 1 1—

.5 .8 1.25

Yield Strength: 82 ksi Ult. Strength: 89.7 ksi Specimen Thk: 0.19 in. Specimen Width: 3.75 in. Ref: BW001

1

10

10

o o 10

10

o •o

10

10

10 .-8

AK (MPaVin) 4 10 40 100

I ' I 'I'll

(2 of 2)

I ' I 'I'l'l I — Stress Ratio: 0.5

lAAi

o

10

10

-3 | — 10 E

- -*-o 10

— 10

— 10

o -a

4 10 40

AK (KsiVin) 100

AK (KsiVin) da/dN (10"6in/cycle) 1.64 (min) 2. 2.5 3. 3.5 4. 5. 6. 7. 8. 8.87 (max)

0.0504 0.0934 0.198 0.384 0.692 1.18 2.99 6.57

11.8 16.8 19.0

RMS % Error 36.40


0. —i 1 1—

.5 .8 1.25

Figure 8.17.3.1.1 8-988

Condition/Ht: T6 Form: 0.2 in. Sheet Specimen Type: CCP (max load specified) Orientation: L—T Frequency: 1 Hz Environment: LAB AIR; RT

7178

Yield Strength: 81.8 - 86 ksi Ult. Strength: 88.2 - 90.5 ksi Specimen Thk: 0.2 in. Specimen Width: 11.5 in. Ref: 86088

R

AK (MPaVin) ° of 2)

4 10 40 100

— 10"

10

10

_a; l— o ü 10 \ c _

Z 10 T3 t

■o _c I— 10

10

10

= I ' I 'I'l'l I ' I 'I'l'l — Stress Ratio: 0.02

_L

—

— r?

=

— •1 —

— —

— —

— f =

^ —

—

~ —

— =

^ —

" I , I,I,I, I , I,I,I, =

— io"2«

- 10 \ o

10

10

AK (MPaVin) 1 4 10 40 100

(2 of 2)

10

10

O

SMO-4

■D 10

4 10 40 100

AK (KsiVin)

10

10

10

= I ' I 'I'l'l I ' I 'I'l'l _L


-

=

_—

— — = ~"

— —

—

= w —

— *""

— =

- I , I,I,I, I , I,I,I, -=:

— 10

io"2^ ü \

10 E

- _^x> 10

— 10

— 10

o ■D

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 11.70 (min) 13. 16. 20. 25. 29.76 (max)

17.4 23.1 44.0

110. 390.

1458.

5.94 (min) 6. 7. 8. 9.

10. 13. 13.88 (max)

6.50 6.76

11.9 18.7 27.5 39.3

106. 141.

RMS % Error 43.83

Life Prediction Ratio Summary Ann o

0. .5 .8 1.25

RMS % Error

22.62


i r

0. .8 1.25 —!-■

2.

Figure 8.17.3.1.2

8-989

F ^ 7178 h- Condition/Ht: T6 Form: 0.2 in. Sheet Specimen Type: CCP (max load specified) Orientation: L-T Stress Ratio: 0.02 Environment: LAB AIR; RT

AK (MPaVin) 1 4 10 40 100

t- I ' I 'I'l'l 1 ' I M'l'l

(1 of 3)

-2 10

10"

o 5^10"+

10"

10"

10

10

Frequency: 1.5 Hz

l I Mill

JLL

a a

m

< i

10

— 10

_03

o \

-3 | 10 E

— 10

10

4 10 40 100 AK (KsiVin)


RMS % Error


1—

2. 0. —i 1 1

.5 .8 1.25

Yield Strength: 86 ksi Ult. Strength: 90.2 ksi Specimen Thk: 0.2 in. Specimen Width: 11.5 in. Ref: 86088

AK (MPaVin) 1 4 10 40 100

- I 'I ' I'l'l 1 ' I 'I'l'l — Frequency: 5. Hz

10

10

-2

^J —

O

o-10"4

10

.-6 10

10

10 I I I u ■ I ■ I'll

(2 of 3)

10

10

-Jio"2£ o

10 E

10

10

10

2

O

4 10 40 100 AK (KsiVin)


10. 13. 14.65 (max)

8.55 9.99

12.3 24.0 32.0

RMS % Error

0.44


0. .5 .8 1.25

Figure 8.17.3.1.3 8-990

■\ 7178 h Condition/Ht: T6 Form: 0.2 in. Sheet Specimen Type: CCP (max load specified) Orientation: L—T Stress Ratio: 0.02 Environment: LAB AIR; RT

F Yield Strength: 86 ksi Ult. Strength: 90.2 ksi Specimen Thk: 0.2 in. Specimen Width: 11.5 in. Ref: 86088

AK (MPaVin) 1 4- 10 40 100

-2 10

10

_CD |—

O

o 10 \ c _

T3 10

10

10

10

-7

- I I I >lllll I I I 'I'll -1


— —

— —

/

—

= <* —

— —

~ I , LI,I, I < LI,I, —

(3 of 3)

— 10

— 10

-S2

o

AK (MPaVin) 4 10 40 100

-2

- io \ o ■a

— 10

10

4 10 40 100

AK (KsiVin)

10

10

O

o 10 c _

2 10

-o . — 10

10

10

I III

I III

h

— —

— —

— —

— —

— —

- I , LI,I, I , I,I,I, -=

10

— 10

V ■2 T:

10 o o \

10" ■I z

m" ̂ u

x>

— 10

10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (I0"6in/cycle) AK (KsiVin) da/dN (I0"6in/cycle) 7.78 (min) 8. 9.

10. 13. 16. 16.74 (max)

5.30 5.68 7.54 9.77

18.9 34.8 47.4

RMS % Error

2.53


i , , 1 1—

0. .5 .8 1.25 2.

RMS % Error


0. -i 1 1—

.5 .8 1.25


R ■\ IMS I — Condition/Ht: T6 Form: 0.2 in. Sheet Specimen Type: CCP (max load specified) Orientation: L—T Frequency: 14 Hz Environment: LAB AIR; RT

AK (MPaVin) 4 10 40 100

-2 10

10

-S> i— o

c _

-5 10

~o . — 10

10

10

- I I I 'ITI I ' I 'l'l'l -1


— —

— —

— —

"*** T^ —

— —

" 1 , 1,1,1, 1 , 1,1,1, —

(1 of 2)

— 10

— 10

10~2£

— 10 E

- -^-a 10

— 10

— 10

o ■o

4 10 40 100

AK (KsiVin)


10. 13. 16. 20. 20.58 (max)

0.893 2.50 5.37 8.77

12.2 22.3 37.1 89.9

105.

RMS % Error

16.65

Life Prediction Ratio Summary + x m

i—

0. T-

.8 1.25

Yield Strength: 81.8 - 85 ksi Ult. Strength: 88.2 - 90.5 ksi Specimen Thk: 0.2 in. Specimen Width: 11.5 in. Ref: 86088

AK (MPaVin) 1 4 10 40 100

I- I ' I 'I'l'l

(2 of 2)

10

IQ"3

o üÔ-4

10 ■a —

-o _B — 10

10

10

TTT Stress Ratio: 0.5

I ■ I.I.I.I I ■ I.I.I.

10

— 10

JE io"2£

o

-3 | 10 E

10

10

10

o ■D

4 10 40 100 AK (KsiVin)


10. 10.80 (max)

4.04 5.19

10.9 16.5 27.7 44.5 90.8

RMS SB Error

26.97


0. —i 1 1—

.5 .8 1.25

Figure 8.17.3.1.4 8-992

Condition/Ht: T6 Form: Sheet Specimen Type: CCP (max load specified) Orientation: L—T Frequency: 9 Hz Environment: H.H.A.; RT

-\ 7178 h

Yield Strength: 82 ksi Ult. Strength: 89.7 ksi Specimen Thk: 0.19 in. Specimen Width: 6 in. Ref: BW001

R

AK (MPaVin) 4 10 40 100

10

10

_Q3

o 10

10

"O _. - 10

10

10 .-8

- I 'I M'l'l I ' I 'I'l'l a

- Stress Ratio: 0.05 — " % -

~— —

~~ —

— m

—

— —

— —

Ill I

I , l.l.l, —

(1 of 2)

— 10

— 10

io"2£

10 E

-Jio > ■D

10

— 10

4 10 40 100

AK (KsiVin)

AK (MPaVin) 4 10 40 100

-2 10

10

_aj — o u 10

10 T>

10

10

10

- I ' I 'I'l'l I ' I 'I'l'l J


rn —

: □7 —

— —

— JF —

— $ —

— —

Ill I

I i Mill —

(2 of 2)

10

10

NT £ o \

10 E

— 10 o

-s — 10

— 10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 7.65 (min) 8. 9.

10. 13. 16. 20. 25. 30. 33.50 (max)

11.4 13.3 18.9 24.7 44.3 71.1

145. 624.

4018. 10142.

3.65 (min) 4. 5. 6. 7. 8. 9.

10. 13. 16. 17.91 (max)

1.34 2.27 6.33

12.0 19.0 27.5 38.3 53.4

180. 949.

3484.

RMS % Error 51.34


0. —i ; 1

.5 .8 1.25 —!-' 2.

RMS % Error 86.64


0. .5 .8 1.25

Figure 8.17.3.1.5 8-993

F ■\ 7178 I " Condition/Ht: T6 Form: 0.2 in. Sheet Specimen Type: CCP (max load specified) Orientation: L-T Stress Ratio: 0.5 Environment: LAB AIR; RT

AK (MPaVin) ° °f 3)

1 4 10 40 100

■- I ' I M'l'l — Frequency: 2. Hz

10"

10"

o £lo"+

Z10 ,_

X> . — 10

10

10

I I I I mi — 10

□ rfp-

I I I llll ■ I ■ III'

10

—J1 o-2 e o

— 10 E

10

10

10

o -o

4 10 40 100

AK (KsiVin)


RMS % Error


i— 0. .5 .8 1.25

Yield Strength: 85 - 86 ksi Ult. Strength: 90.2 - 90.5 ksi Specimen Thk: 0.2 in. Specimen Width: 11.5 in. Ref: 86088

AK (MPaVin) 4 10 40 100

1 I M'l'l 1 ' I M'lT

(2 of 3)

4 10 40 100

AK (KsiVin)


10. 13. 16. 16.38 (max)

7.96 9.25

15.8 26.8 40.7 59.9

280. 1077. 1340.

RMS % Error 14.07


i 1 r— r- 1--' 0. .5 .8 1.25 2.

Figure 8.17.3.1.6 8-994

Condition/Ht: T6 Form: 0.2 in. Sheet Specimen Type: CCP (max load specified) Orientation: L—T Stress Ratio: 0.5 Environment: LAB AIR; RT

■\ IMS r

Yield Strength: 85 - 86 ksi Ult. Strength: 90.2 - 90.5 ksi Specimen Thk: 0.2 in. Specimen Width: 11.5 in. Ref: 86088

F

AK (MPaVin) 4 10 40 100

10

-3 10

u o 10

-5 10

10

10

10

-7


— —

— —

: —

— —

: —

III I

I , I,I,I, —

(3 of 3)

— 10

— 10

—

ü

AK (MPaVin) 4 10 40 100

10 o ■a

-5 — 10

— 10

4 10 40 100 AK (KsiVin)

10

10

_aj — o oîo"4

c _

Z 10

10

10 -7

10 .-8

- I i I i|i|i| | i | TIM -i

— —

— -=

— -=

— —

— —

" 1 , 1,1,1, 1 , 1,1,1, —

10

10"2^ ü \

-3 | 10 E

— 10 \ o ■D

10

— 10

4 10 40 100 AK (KsiVin)


RMS % Error


0. -1 1 1—

.5 .8 1.25


,— 0.

—i 1 1—

.5 .8 1.25


R ■\ 7178 h— Condition/Ht: T6 Form: 0.25 in. Sheet Specimen Type: CCP (max stress specified) Orientation: L-T Frequency: 9 Hz Environment: H.H.A.; RT

1 AK (MPaVin)

4 10 40 100 1 ' "Tl

(1 of 2)

F=—1—I | I | Hi


4 10 40 100

AK (KsiVin)


10. 13. 16. 17.25 (max)

0.489 0.790 3.35 7.86

13.0 17.5 21.8 42.7 69.7 84.9

RMS 55 Error 13.07


t—

0. —i 1 1—

.5 .8 1.25

Yield Strength: Ult. Strength: Specimen Thk: 0.163 in. Specimen Width: 5 in. Ref: BW002

AK (MPaVin) 1 4 10 40 100

b I ' I 'I'l'l 1 ' I Tl'l

(2 of 2)

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) 2.81 (min) 3. 3.5 . 4. 5. 6. 7. 8. 9.

10. 13. 13.07 (max)

0.180 0.359 1.39 3.43 9.94

17.7 26.6 39.8 61.8 91.3

232. 239.

RMS % Error 12.48


I 1 1 1 1-'

0. .5 .8 1.25 2.

Figure 8.17.3.1.7 8-996

7178 Condition/Ht: T651 Form: 0.13 in. Sheet Specimen Type: CCP (max stress specified) Orientation: L—T Frequency: 0.1 — 12 Hz Environment: LAB AIR; RT

R

Yield Strength: 82.5 ksi Ult. Strength: 88.5 ksi Specimen Thk: 0.063 in. Specimen Width: 6 in. Ref: MA011

AK (MPaVin) 4 10 40 100

I ' I 'I'l'l 1 ' I 'I'l'l

(1 of 1)

4 10 40 100

AK (KsiVin)

AK (MPaVin) 1 4 10 40 100

10

10

o o 10 c _

■Z. 10

10

10

10

I III

I III

\

: —

— —

: —

— —

— —

" I , I,I,I, I , I,I,I, —

10

10

<o 2 -77

10 o o \

10~ =1 v-^ •z.

10" ̂ u

■o

-5 — 10

10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 4.20 (min) 5. 6. 7. 8. 9.

10. 13. 16. 20. 25. 30. 35. 40. 43.81 (max)

0.236 0.924 2.69 5.29 8.38

11.7 15.3 28.7 51.3

105. 209. 430.

1514. 5211. 4993.

RMS % Error 22.20


0. —i 1 1—

.5 .8 1.25


0. .5 .8 1.25

Figure 8.17.3.1.8 8-997

-H 7178 I Condition/Ht: T651 Form: 0.25 in. Plate Yield Strength: 81.5 ksi Specimen Type: CCP (max stress specified) Ult. Strength: 89.7 ksi Orientation: L-T Specimen Thk: 0.125 in.

Stress Ratio: 0. Specimen Width: 8 in. Frequency: 20 Hz Ref: RI002

AK (MPaVin) ° °f 2) AK (MPaVin) (2 of 2)

1 4 10 40 100 1 4 10 40 100

— Environment: Lab Air; R.T. -=: 0

10 - I ' I ' ITI I ' I 'ITI -1

— Environment: S.T.W.; R.T. — 0

10

ID"2 —

io"2

-i

10 -1

10

ID"3 —

<u io"3 a;

V — io"2£ Q) 10"* £

o

frlO"4

\

— o \

Ü o

— c 10 £ _c 10 E

s—' ^-^ v ' zio's

T3 -z.

4"° zio"5

■a -z.

o — 10 ^ o

— 10 £ ~° -s XJ ~° „-« "O

io6 10 -5

10 10

ID"7 io~7

—■

-6 10

-6 10

„-« "1,1 ,1,1. i inn - Iff8 ~ 1 , I.I.I. I., I,I,I, 1 4 10 40 100 1 4 10 40 100


AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 4.82 (min) 0.634 4.58 (min) 0.509 5. 0.806 5. 0.944 6. 2.25 6. 2.87 7 4.47 7. 6.24 8. 7.20 8. 10.9 9. 10.2 9. 16.6

10. 13.2 10. 22.9 13. 21.7 13. 43.1 16. 30.5 16. 70.0 20. 54.5 20. 140. 25. 159. 25. 272. 30. 362. 29.56 (max) 375. 30.28 (max) 372.

RMS % Life Prediction Ratio Summary RMS % Life Prediction Ratio Summary

Error o □ Error a

12.84 0. .5 .8 1.25 2. 11.89 0. .5 .8 1.25 2.

Figure 8.17.3.1.9 8-998

7178 Condition/Ht: T651 Form: 0.25 in. Plate Specimen Type: CCP (max stress specified) Orientation: L—T Frequency: 6 Hz Environment: S.T.W.; RT

R

Yield Strength: 81.5 ksi Ult. Strength: 89.7 ksi Specimen Thk: 0.125 in. Specimen Width: 8 in. Ref: RI002

AK (MPaVin) 1 4- 10 40 100

10

-3 10

JO |— o

o^10-+

c _

10

"o _K — 10

10

10

- I ' I 'I'l'l I ■ I 'I'l'l -L


: —

— —

— j —

— w —

— —

~ I , M,l, I ■ I,I,I, —

(1 of 1)

10

10

10"2 u

■= 10"' £

— 10

— 10

1 4 10 40 100 AK (KsiVin)

AK (MPaVin) 1 4 10 40 100

■- I ' I 'I'l'l 1 ' I 'I'l'l

10

10

o u^10-+

-Z. 10 "O

10

10

10 ii [A i i' mi

10

— 10

JE -jio~2 y

o

-Jio E

-Jl0 > T3

— 10

10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 5.01 (min) 2.71 6. 6.80 7. 12.0 8. 17.6 9. 23.3

10. 29.3 13. 53.4 16. 89.2 20. 154. 25. 352. 29.40 (max) 710.

RMS % Error

4.95


0. .5 .8 1.25 2.


0. .5 .8 1.25

Figure 8.17.3.1.10 8-999

R \ 7178 h Condition/Ht: T651 Form: 0.25 in. Plate Specimen Type: CCP (max stress specified) Orientation: T-L Frequency: 20 Hz Environment: LAB AIR; RT

AK (MPaVin) 4 10 40 100

-i—i I i I i|M—

(1 of 1)

I ' I U'l'l I Stress Ratio: 0.0 — 10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (I0"6in/cycle) 4.35 (min) 5. 6. 7. 8. 9.

10. 13. 16. 20. 25. 27.90 (max)

0.266 0.558 1.45 3.10 5.58 8.73

12.1 21.0 33.0 82.3

391. 412.

RMS % Error 18.95


0. .5 .8 1.25


10

10

u o^10-4

Z 10

10

10

10

AK (MPaVin) 4 10 40 100

T 1 I l I MM— l I l I I 111

Mill I I III

o

10

10

— 10 E

— 10

— 10

— 10

o

4 10 40 100

AK (KsiVin)


RMS % Error


0. —T~

.8 1.25

Figure 8.17.3.1.11 8-1000

Condition/Ht: T651 Form: 0.25 in. Plate Specimen Type: CCP (max stress specified) Orientation: T—L Frequency: 6 Hz Environment: S.T.W.; RT

7178


R

AK (MPaVin) (1 of 1)

4 10 40 100 1 I 'I'I'I 1 ' I 'I'I'I

AK (MPaVin) 4 10 40 100

-2 10

10

u ^10"4

c _

4 10 40 100 AK (KsiVin)

10

10

10

10

I II

I

I III

I-

— —

= —

— —

— —

— —

- I , I,I,I, I , I,I,I, —

10

— 10

10~ 2ö

o \

10~ ■i v—' -z.

m~ ̂ Ü

XJ

— 10

10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10-6in/cycle) AK (KsiVin) da/dN (10-6in/cycle) 5.16 (min) 3.64 6. 6.27 7. 10.0 8. 14.3 9. 19.1

10. 24.6 13. 46.2 16. 82.4 20. 196. 25. 875. 25.29 (max) 968.

RMS % Error

8.20


0. .5 .8 1.25


0. —i 1 1—

.5 .8 1.25 —\- 2.

Figure 8.17.3.1.12 8-1001

R ■I 7178 I Condition/Ht: T651 Form: 0.31 in. Plate Specimen Type: CCP (max stress specified) Orientation: L-T Frequency: 0.1 — 12 Hz Environment: LAB AIR; RT

AK (MPaVin) 4 10 40 100

10

ID"3

Ü

fri o"+

\ c _

210

x> _K — 10

10

10

- I I I >l'l'l I ' I 'I'l'l -1


"™"

—

— —

_ —

"""" iPT —

"""-" IV —

" 1 , 1,1,1, 1 , 1,1,1, —

(1 of 1)

10

10

io~2 ° o

-3 I 10 E

-Jio > ■o

10

10

4 10 40 100

AK (KsiVin)


10. 13. 16. 20. 25. 30. 35. 38.42 (max)

0.272 0.276 1.12 2.77 5.26 8.51

12.5 17.2 36.8 69.0

151. 403.

1091. 3014. 6094.

RMS % Error

27.20


—i 1 1—

.5 .8 1.25 —i-'

2.

Yield Strength: 83.5 ksi Ult. Strength: 89.5 ksi Specimen Thk: 0.1 in. Specimen Width: 6 in. Ref: MA011

AK (MPaVin) 1 4 10 40 100

10

10

2L ~ u 6^10-4

10

o ~o _K r-

10

10

10

= I ' I 'I'l'l 1 ' I 'I'l'l = 10

a; 2 T:

10 u o \

10" ■I z

i"" m 4\

u ■D

— 10

— 10

4 10 40 100

AK (KsiVin)


RMS % Error


i 1 1 1—

0. .5 .8 1.25 2.

Figure 8.17.3.1.13 8-1002

7178 r Condition/Ht: T651 Form: 0.5 in. Plate Specimen Type: CCP (max stress specified) Orientation: L—T Frequency: 0.1 - 12 Hz Environment: LAB AIR; RT

R

Yield Strength: 72 ksi Ult. Strength: 80.5 ksi Specimen Thk: 0.185 in. Specimen Width: 6 in. Ref: MA011

AK (MPaVin) 1 4 10 40 100

10

10

ja |— o o 10 c _

-Z. 10 T3 tr

-o -* I— 10

10

10

_ I I I llTI I . I IYI _L

— Stress Ratio: 0.02 — — - — — - — — — -= — - — — — -=: — - — ri» — — Jp — — nT - — / — — d — — - — — — -=

" I ■ I,1.1, I , I,I,I, -

(1 of 1)

10

— 10

IQ"* £

10-3E

^=J 10 \ XI

— 10

10

4 10 40 100 AK (KsiVin)

10

10

u 10

10

10

10

10

AK (MPaVin) 4 10 40 100

1 I Tl'l 1 ' I M'l'l

' i 111ii i i 11in

10

— 10

Ü

,0-1 - -*T>

10

— 10

— 10

o XI

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (10"6in/cycle). 4.05 (min) 5. 6. 7. 8. 9.

10. 13. 16. 20. 25. 30. 35. 40. 44.41 (max)

0.223 0.909 2.36 4.53 7.29

10.5 14.1 27.2 45.7 86.6

194. 449.

1081. 2673. 6045.

RMS % Error 19.21


i 1 1 1 1—

0. .5 .8 1.25 2.

RMS % Error


0. .5 .8 1.25

Figure 8.17.3.1.14 8-1003

I —7 1" 7n I / O I

L Condition/Ht: T76 Form: 0.1 - 0.19 in. Sheet Yield Strength: 70.5 - 75 ksi Specimen Type: CCP (max stress specified) Ult. Strength: 79 - 81.5 ksi Orientation: L—T Specimen Thk: 0.1 in. Stress Ratio: 0.02 Specimen Width: Frequency: Ref: MA012


1 4 10 40 100 1 4 10 40 100

- I ' I 'I'l'l I ' I 'ITI -) — Environment: Lab Air; R.T. —

0 10

_ ^r , |T! | ., |T| j

— Environment: Distilled Water; Rrfc 0

10

ID"2 — _

-i

la"2 — —

-1 — ^b — 10 10

ID"3 ^^ io'3 ,-s

___ (D io"2£ ü o U — o

o 10 \ c

—

10 E

6^10-4

E 10 E — —

v_x ^~-' _ ^-^

Z10"5 """ -z.

-4"0 Z10"5 -z.

— fj

o — 10 > o

— JF 10 o^

"° 6 T3 "O -6 — wt "O

106 10 -5

10 -5

10 a —

ID"7 — io"7 _

— -6

10 — -6

10

^n-B " I , Ml I , Ml - m"8 ~ I , I,I,I, I , l,l,l, —

1 4 10 40 100 1 4 10 40 100


AK (KsiVin) da/dN (10~6in/cycle) AK (KsiVin) da/dN' (10"6in/cycle) 4.01 (min) 0.231 4.00 (min) 0.358 5. 0.639 5. 0.851 6. 1-33 6. 1.73 7. 2.31 7. 3.14 8. 3.60 8. 5.18 9. 5.22 9. 7.95

10. 7.18 10. 11.5 13. 15.5 13. 26.8 16. 28.8 16. 47.5 20. 58.4 20. 83.1 25. 129. 25. 169. 30. 268. 30. 396. 35. 533. 35. 830. 40. 991. 40. 1209. 50. 2683. 50. 7651. 56.27 (max) 4280. 50.42 (max) 9224.

RMS % Life Prediction Ratio Summary RMS % Life Prediction Ratio Summary Error Error

40.36 i 1 1 i i

0. .5 .8 1.25 2. 23.15 0. .5 .8 1.25 2.

Figure 8.17.3.1.15 8-1004

17 <"> I 1 / 3 ' D

Condition/Ht: T76 Form: 0.19 in. Sheet Yield Strength: 70.5 ksi Specimen Type: CCP (max stress specified) Ult. Strength: 79 ksi Orientation: L-T Specimen Thk: 0.194 in Frequency: Specimen Width: Environment: LAB AIR; RT Ref: MA012

AK (MPaVin) (1 of 1) AK (MPaVin) 1 4 10 40 100 1 4 10 40 100 - | i | >|i|i| | ' | >|i|i| -i Q - I ■ I 'ITI I ' I 'I'l'l _L

— Stress Ratio: 0.02 — 10 ~= 0

10

10"2 io~2

— —

-1 10 —

-1 10

ID"3 — — 10 £ ü — o ü u 6^10~+ —

-3| SMO"4

-3^ — —

_c — 10 E _c 10 E v-' ,.,, ^^ ^-^ —' 2 10"5

■o 10 \

2 10"5 2

10 \ = JP

o o a D

~° -6 nCJ XI ~° -6 T3 10 10

— nL -5 -5 — 10 ~ 10

10"7 — 10"7 -

— -6

10 — -6

10

m"8 ~ 1 , 1,1,1, I , LI,I, — m"8 ~ I , I,I,I, I , I,I,I, —

1 4 10 40 100 1 4 10 .40 100


AK (KsiVin) da/dN (I0_6in/cycle) AK (KsiVin) da/dN (10 "6in/cycle) 4.78 (min) 0.462 5. 0.591 6. 1.40 7. 2.50 8. 3.83 9. 5.35

10. 7.09 13. 14.2 16. 26.9 20. 64.9 25. 190. 30. 441. 35. 776. 40. 1197. 47.92 (max) 3308.

RMS % Life Prediction Ratio Summary RMS x Life Prediction Ratio Summary Error Error

18.70

i I,, i

0. .5 .8 1.25 2. 0. .5 .8 1.25 2.

Figure 8.17.3.1.16 8-1005

R i 7178 h- Condition/Ht: T7651 Form: 1.38 in. Plate Specimen Type: CCP (max load specified) Orientation: L—T Frequency: 5.2 Hz Environment: LAB AIR; RT

AK (MPaVin) 4 10 40 100

i I > I NU—

(1 of 1)


4 10 40 100

AK (KsiVin)


10. 13. 16. 16.23 (max)

2.59 3.39 4.90 6.65 9.49

13.7 31.5 76.8 81.1

RMS % Error 11.92

Life Prediction Ratio Summary □A ©

i 1 1 1 1

0. .5 .8 1.25 2.


f=—I—i I I I'M

10

10

_Q) —

o _ o 10

■Z. 10 -a

XI 10

10

10

AK (MPaVin) 4 10 40 100

"I—I I I I MM—

1_L1 Mill I I I I III

— 10

10

o

10 E

- _i"0 — 10

— 10

a

10

4 10 40 100

AK (KsiVin)


RMS % Error


0. —i 1 1

.5 .8 1.25

Figure 8.17.3.1.17 8-1006

Condition/Ht: T7651 Form: 0.44 in. Plate Specimen Type: CCP (max load specified) Orientation: L—T Frequency: 5.2 Hz Environment: LAB AIR; RT

^ 7178 r R

Yield Strength: 70.9 ksi Ult. Strength: 80 ksi Specimen Thk: 0.444 in. Specimen Width: 3 in. Ref: 86213

AK (MPaVin) 1 4 10 40 100 PT—I 1 I I I Nil

(1 of 1)

10

10

o frl 0"+

I III

Stress Ratio: 0.33

10

10

10

10 ' i i im i l i 11 li

— 10

— 10

—

o

,o-I

10

10

10

o T3

AK (MPaVin) 1 4 10 40 100

4 10 40 100

AK (KsiVin)

10

10

o

\ c _

■Z. 10

10

10

10

= I ' I 'IM'I I ' I M'l'l 3

10

— 10

io'2^ o

- 1(T\ o ■D

10

— 10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10_6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 5.99 (min) 6. 7. 8. 9.

10. 13. 15.78 (max)

3.39 3.40 4.80 6.94 9.32

11.9 28.5 56.0

RMS % Error

2.21


0. .5 .8 T25 2.

RMS % Error


0. .5 .8 1.25 2.

Figure 8.17.3.1.18 8-1007

R .| 7178 |

Condition/Ht: T7651 Form: 0.48 - 0.49 in. Plate Specimen Type: CCP (max load specified) Orientation: L-T Frequency: 5.2 Hz Environment: LAB AIR; RT

Yield Strength: 69.2 - 70.9 ksi Ult. Strength: 80 ksi Specimen Thk: 0.481 - 0.486 in. Specimen Width: 2.999 - 3 in. Ref: 86213

AK (MPaVin) 4 10 40 100

i M I 'IM

(1 of 1)

4 10 40 100 AK (KsiVin)


10. 13. 15.40 (max)

1.53 2.50 4.57 6.96 9.40

12.5 31.8 60.9

RMS % Error 12.28

Life Prediction Ratio Summary si o

-i r

0. .5 .8 1.25

AK (MPaVin) 4 10 40 100

c=—|—i I i |i|i|

10

10

o Gô"4

10

10

10

10

i Minn

MI" ' Mini

— 10

10

-2 -rz 10" °

o

~J I—

— 10 E

10

— 10

— 10

4 10 40 100 AK (KsiVin)


RMS % Error


0. —i 1 1—

.5 .8 1.25 —i-'

2.

Figure 8.17.3.1.19 8-1008

i -» 17< ° I I / J ' D

Condition/Ht: T7651 Form: 1.38 in. Plate Yield Strength: 71.1 ksi Specimen Type: CCP (max load specifie d) Ult. Strength: 80.5 ksi Orientation: T—L Specimen Thk: 0.751 in. Frequency: 5.2 Hz Specimen Width: 3 in. Environment: LAB AIR; RT Ref: 86213

AK (MPaVin) (1 of 1) AK (MPaVin) 1 4 10 40 100 1 4 10 40 100 _ | I | |l|l | I | l|T| _L - I ' I ' n'l I ' I M'l'l u

— Stress Ratio: 0.33 — 10 10

10"2 io"2

— -1

10 — -1

10

la"3 CD

io"3 <o

•"""V -2 T; s~^ -2 T; a> — 10 « <a 10 £ o — a o o 6^1 o"+ — 5-10-4

— c 10 E c 10 E

— — ^-^ ^-^ ^-* zio"5 —

•z. 2 10"5 ■z. "O -+"° ■a *y \ __ 10 \ \ io > O o o o "° -6 x> "° -6

— X> 10 10

~~ -5

10 — -5

10

io"7 — io-7 —

— -6

10 -6

10

m"8 h I , I.JLI. I , I ,!,E, — m"s ~ I , I,I,I, I , I,I,I, 1 4 10 40 100 1 4 10 40 100


AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (I0"6in/cycie) 5.54 (min) 2.11 6. 2.94 7. 4.81 8. 7.29 9. 11.0

10. 16.2 13. 43.5 13.28 (max) 47.2

RMS % Life ' Prediction Ratio Summary RMS % Life Prediction Ratio Summary Error Q Error

3.40 i— i i i i

0. .5 .8 1.25 2. 0. .5 .8 1.25 2.

Figure 8.17.3.1.20 8-1009

R ^ 7178 I Condition/Ht: T7651 Form: 0.49 in. Plate Specimen Type: CCP (max load specified) Orientation: T—L Frequency: 5.2 Hz Environment: LAB AIR; RT

AK (MPaVin) 1 4 10 40 100

> I i I MM—

(1 of 1)

= I ' I MM' — Stress Ratio: 0.33

4 10 40 100

AK (KsiVin)


10. 13. 16. 16.70 (max)

1.46 1.97 3.72 6.22 9.38

13.2 34.0 81.8 94.5

RMS % Error 13.63


i 1——r 1 1

0. .5 .8 1.25 2.


v=—i—i i i HP

10

10

-2

O

o^10-4

c _

-s 10

-a —

"o _K — 10

10

10

AK (MPaVin) 4 10 40 100

I ' I 'I'l'l

I I I 11II I 111

10

10

io"2 u

Ü

— 10 E

10

10

o

— 10

4 10 40 100

AK (KsiVin)


RMS % Error


—i 1 1

.5 .8 1.25

Figure 8.17.3.1.21 8-1010

-\ 7178 r Condition/Ht: T76510 Form: 0.69 in. Extrusion Specimen Type: CCP (max load specified) Orientation: L—T Frequency: 5.2 Hz Environment: LAB AIR; RT

R

Yield Strength: 65.3 ksi Ult. Strength: 76 ksi Specimen Thk: 0.657 - 0.659 in. Specimen Width: 3.004 - 3.006 in Ref: 86213

AK (MPaVin) 4 10 40 100

(1 of 1)

10

10

o 6-10-+

,-s Z 10

10

10

10

-7


— —

— —

— —

~" iff —

— —

" I , I.I.I. I , I,I,I, —

10

JE 10"2 u

10 E

- -*T> — 10

— 10

— 10

o T3

AK (MPaVin) 1 4 10 40 100

10

-3 10

u

u^10-4

c _

Z 10

"a _c —

4 10 40 100

AK (KsiVin)

10

10

10

-6

= I ■ I TIM I ' I 'ITI3

10

— 10

10"2^ o

,o-I - _*-o

10 o

-5 — 10

— 10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (I0"6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 6.03 (min) 7. 8. 9.

10. 13. 16. 16.32 (max)

2.95 4.46 6.77 9.56

12.6 27.7 61.4 62.9

RMS % Error

5.17

Life Prediction Ratio Summary ACT

RMS % Error

0. .5 .8 1.25 2.


.5 .8 1.25

Figure 8.17.3.1.22 8-1011

—1 7178 I Condition/Ht: T76510 Form: 0.69 in. Extrusion Yield Strength: 65.3 ksi Specimen Type: CCP (max load specifie d) Ult. Strength: 76 ksi Orientation: L—T Specimen Thk: 0.628 in Frequency: 5.2 Hz Specimen Width: 3 - 3.006 in.

Environment: LAB AIR; RT Ref: 86213


-Ml 'ITI I ' I 'I'll -1 0 = I ■ I ' ITI I ' I 'ITI 0

— Stress Ratio: 0.33 — 10 10

ID"2 ~*

10"2

_ -1

10 _ -1

10

IG"3 - 1^_N 10"3 — s-.

— o — ô2Z U

ü 10 \

- Ü \

io E

u u 10

c

— - o \

-3I 10 E

_ =

v_x "^ *~^

ZIG"5

XJ \ D

~0 K XJ

z: io"5

XJ \

O "° -6

z

XI

10 6 10

— -5

10 -5

10

io"7 io"7

—; -6

10 -6

10

-8 "1,1 ,1,1, ! I , l.l, - m"8 " I , I,I,I, I , LU, 1 4 10 40 100 1 4 10 40 100


AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (10 "6in/cycle)

6.04 (min) 2.81 7 4.87 8. 7.00 9. 9-31

10. 12.3 13. 28.4 15.78 (max) 57.7

RMS % Life Prediction Ratio Summary RMS % Life Prediction Rati< D Summary

Error o □ Error

7.16 r— 1 1 T i

0. .5 .8 1.25 2. 0. .5 .8 1.25 2.

Figure 8.17.3.1.23 8-1012

7178 Condition/Ht: T76510 Form: 3.5 in. Extruded Bar Specimen Type: CCP (max load specified) Orientation: L—T Frequency: 5.2 Hz Environment: LAB AIR; RT

R

Yield Strength: 63.4 ksi Ult. Strength: 73.6 ksi Specimen Thk: 0.75 - 0.752 in. Specimen Width: 2.998 - 3.004 in Ref: 86213

AK (MPaVin) 4 10 40 100

(1 of 1)

10

10

o

c _

Z 10

10

10

10

- I i I TH I ' I U'l'l -1


— —

— —

— —

_ fir —

— —

- 1 , 1,1,1, 1 , 1,1,1, —

— 10

10"2 u

o

10"3E

AK (MPaVin) 4 10 40 100

10

10

10

a XI

4 10 40 100

AK (KsiVin)

10

10

o o 10 \ c _

■Z. 10 ■o

"O _e — 10

10

10

= I ' I M'l'l I ■ I TIM 3

10

10

io"2 "

icT E

10

— 10

o

10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (10_6in/cycle) 5.65 (min) 6. 7. 8. 9.

10. 13. 16. 16.84 (max)

2.36 2.77 4.32 6.53 9.53

13.5 32.0 62.1 72.7

RMS % Error

9.47

Life Prediction Ratio Summary □A©

RMS % Error

0. .5 .8 1.25


0. .8 1.25

Figure 8.17.3.1.24 8-1013


Specimen Thk: Specimen Width: Ao: Klscc^ Ref: 85543

10

10 -1

10 -2

^10 -3

O

10

10

10


4 10 40 100 1—I I I HI'I I I I I >|l . . FT

Environment: 3.5« NaCI; R.T. — 10



10. 13. 14.70 (max)

0.0103 0.0367 0.294 0.883 1.52 1.92 1.93 1.82

RMS % Error 40.82

Kmax (MPaVin) 1 4 10 40 100

b I ' I Tl'l I ' I TIN

10

10

°102

10 -3

D

10

10

10 ■ I I III! ' I ' I 111

— 10

— 10

0 I-

n10 §

- -1 E — 10 £

■o

10

10



RMS % Error

Figure 8.17.3.2.1 8-1014

7178 Condition/Ht: T651+ 1HR AT 320F Form: 1 in. Plate Specimen Type: DCB Orientation: T-L Yield Strength: Ult. Strength:



4 10 40 100

10

10

3 o \ c °10"2

^10

10

10

10

™~ I ' I 'I'l'l I ' ITI'I

Environment: R.T.

_1

— —

— — — —

— =

— —

— — —

— a HUH

—

— □

—

— —

— I , I.I..I, I , I, I.I. —

— 10

0 i- 10 3

,o-J

~ _,X3

Kmax (MPaVin) 1 4 10 40 100

10

10

10 o ■o

-3 — 10

— 10


o sz \ c °10"2

.^10 •D tZ

O

10

10

10

= I ' I 'I'l'l I ' I 'I'l'l = 10

10

,0'1

- _,/u 10

10

-2>

T7

— 10


Kmax (KsiVin) da/dt (10"3in/hour) Kmax (KsiVin) da/dt (1CT3in/hour)

RMS % Error

RMS % Error

Figure 8.17.3.2.2 8-1015

H 7178 I — Condition/Ht: T651+ 8HR AT 320F Form: 1 in. Plate Specimen Type: DCB Orientation: T-L Yield Strength: Ult. Strength:

Specimen Thk: Specimen Width: Ao: Kjscc* Ref: 85543

Kmax (MPaVin) ° of 1>

1 4 10 40 100

b I ' I 'I'l'l—I ' I 'I'l'l — Environment: R.T.

10

10 -1

3 „ — 10

c —

^10-3

\ o

10

10

10 i Uli

as

I , l.l.l.

— 10

— 10

0 k_

1 ,o-i

10

10

10

o -o


Kmax (KsiVin) da/dt (10-3in/hour)

RMS % Error


b I ' I 'I'l'l 1 ' I 'I'l'l =1

10

-1 10

10

+.10

a

10

10

10 I llll I ■ l.l.l.

— 10

— 10

o v-

J-o-1 10 o

-3 — 10

— 10

4 10 40 Kmax (Ksivin)

100


RMS % Error

Figure 8.17.3.2.3 8-1016

7178 Condition/Ht: T651+ 12HR AT 320F Form: 1 in. Plate Specimen Type: DCB Orientation: T-L Yield Strength: Ult. Strength:



1 4 10 40 100

10

10

3 °10_Z

\ _ c r~

->-. 10

10

10

10

_ | i |i|igi| | i |i|>|i| -i

— Environment: R.T. —

— —

— —

: —

— —

: —

III 1

1 , I.I.I. —

— 10

0 i- 10 I ,o-f

Jio >

10

— 10

4C Kmax (Ksivin)


RMS % Error


10

10"

i-

_°-10~ \ c

-M 10~

o -o

10

10

10

I III

I II

I V

— —

— —

— —

: —

— —

" I , I.I.I. I . 1,1.1, —

10

10

o 1- 10 §

ID"1 |

- _,.-o — 10

-2«

O

-3 10

10



RMS % Error

Figure 8.17.3.2.4 8-1017


Specimen Thk: Specimen Width: Ao: Kjscc- Ref: 85543


1 4 10 40 100

b I ' I 'I'l'l—I ' I'lTI - Environment: 3.5« NaCI; R.T. -d 10

10

10"

°10~ \

+.10"

-o 10

10

10 . i . i in I ■ I.I.I,

— 10

^10 i

-Ep0 > -o

10

10

4 10 4I Kmax (KsiVi

o 100 in)


RMS % Error

Kmax (MPaVin) 1 4 10 40 100

10

10

°10_" \ c

^ 10" TD \ O

XI ^|- 10

10

10

_ | , | .|i,.| | i | >|i|.| a

— —

^~ —

— —

— —

— —

Ill 1 1 , 1,1,1. —

10

10

o i-

1 ,o-i

■o

10

— 10

4 1 Kmax

0 40 1 : (KsiVin)

00


RMS % Error

Figure 8.17.3.2.5 8-1018

17178 (ALCLAD)!

rf

«

rf

00

00

g

2> fee

*f

\3

I

5> go

■£ ;Ii

6B«

Mi s B as

ii*

B O § EL.

9e? iss

Ed K ft. O

ei*

o

H J

si

8-1019

7475 ■

05

GO

w

0 •** <*»

a

•c O

I V a to

CO

s 00 o r-4

o to ■

IO to

IO pi

to 1-4

fr- ei

• CO

©

1-4

CN

e

1* CO

co

CM

CO.

©' CO

• CO.

CN

CO

CN

c o CN i-4

1-4 i-4

os o »-4

t- i-4 00 co

CDQ i-l •»* IO

ei en CN ©

C to

3 CN

eo

to

eo ss IO co

e 05 i-H CO

© IO 1-4

; t-t l-l co

MO CN 1-4

OS i CÖ

05 ei

e a s

i* 1-4

© CO

IO CO

1-4 ; r-4

it ei

Ö V S ee o u H •*> es 9

O •P4 •W

•Ü d o

l-( IO CO H

a,

IO

IS

1-4 IO eo t- E-i

& co 1-4 to CO r-

»-4 IO CO C~ H

04 tB %—' 1-4 IO co e- H

Pro

du

ct

For

m

a E

8-1020

7475

CM O

«3

3

H

I to w

"ft

1Ü1 m lii

■

• •

O

|

s M Pi o

■ ■

Hi o d

W H S3 CO

8-1021

7475 m O

. •

«3

a 3

u 9

•a CP

53 00

o m ■*<

ip *

1 « h 1* ■■ 3T

*

% i t-

3 00 00 ei io

CM

85

TO

TO

OS CO »■H IO

t lllllll liiui s to

o IO 00

N 00 •a

*-4 03 TO '

p iiiillli Ü9* s s CO

X CO 10 N N TO TO CM CN

d

&** ijä^sii«

S5 9 E **"'

■::.Ö.:: .: o d

CO d

IO o d

10 o d

IO o d

00 d

00 d

00 d o

d 00 d

IO o d

00 d

:-Ö &■■'■" IS 8H Cd

Ed

3 fl-

Ed s to

< <

«fa

&

si BJ

2 &■"■■'" X

AIM ic TO to CO IO IO

8s 83

IO CO

8-1022

7475

O

<

O H

I s

SSSS«!

■ 1 OS

to to 00

10 iq C5

••'»• !***!;

to ö to

d

»ass

W

•

oo

in IS 6

ID H

M

I

H t

• •

O

Ed Ed S CO

EH Ed Ed X CO

Ed

Ou

s

C5

1 8-1023

7475

O

■ 1-4

os

00

a 3

<

o H

s

o m w

o N

illllli ;li N

£ mmgM llilll lltfi ^ iî t- CO CO O CO

o § CD

^ 1111 ilSilll ii CM iO

CM o CO

9 CM § g CO

lliil Itlip

||S||1 ■■*«

•* c- CO

IO C- CM CO o io

CM CM C-

• •

§ IÜ1 CO CM CO

IO CO CÖ !-H CO o

CM 01 co

£• j

H £ iiiil CO a ö

CO CM

d d

O *}

IO o CO o 8 **

H

*» o o o o

&*** wmwmm Hi

N N CM 05 CO

CM IO

to CM

»-< o CO

e»

o CO

e»

CO

IO 10

IO CM

CO CO

CO

CO

CO

CO CO d

•>: s N_^:'

Ä O d

10 o ©

io o d

CO CO

Ö

CO CO

d CO CO

Ö

CO CO

d d d d IO CM

d CO CO

d IO d

IO d

CO CO

d d

ö Ä 6- Ed

Ed Ed E-i

EH Ed

Ed

.';:::;::;:-.-.;;'; v'..:.;v ■§o; '■■ W X CO

< < a.

W SB CO

< ■J EL,

ÎpfefÄll H cw

• • fc O i-H ■:ft':V:-:v:"x^:v:':-:::::::::::::::w

H siiilfplÄÄ g AMI

H ÄpÄÜ H4

o SI is IO

s to CO

& CO

E->

IO

g

in :■:■:■:■:■:■■■

8| 111

8-1024

7475

SS»?

t

fa

4 O

ill

■ IÜ

m

10

3

SWS s*ää

SS*

to

OS

o et

d

«MWWiWWIIW

00 1«] o

6

X

§

I

■

O

|

H

o

I £

8-1025

7475

CM O

CO

a

oo

a 1

OH

o

I

fa

■8

■

O

5

o

« s# -»*

fttji-yftWftyftvft':

o s CD

iliift ■ 1-H o 00

IO

10

■i 1

IHIII ©

§ 1 to

9 - CD 0>

d CO

o d CO

CO CO

3'

•5!

illHl 3 ■11

S s •* 10 CO

oi oi CO IO d IO*

en to d *-i

CO

•«t CO

10 s 5

d O)

IO

IO CO IO

liipl lili^Üfe: »■

■* to o ■<*

IO to

10 CN eo

is M o o o o

CO

«9 © o

ifi o o

<y* o 81 N 10 o o 10 o o

0) o IO

CM - ci

CS1 to o

H IO

CN

IO

o

"g^%w>-

#.< '-. d d eo d d

IO d d d

CO eo d

- •? o d

IO o d d d d d

:-ö:|M-- 63 Ed EH

EH Ed 13 S

oo H < Ed < •< S en 0.

X CO ai

ft{ &*: &

Allllllll

In 8 8

IO

8 IO

8 »-t IO CO

E->

8-1026

7475

CM O

CN

05

CO

u

■

O M

|

s o

:<* m

9 8 IsÄ: g s mm 3 I-.;!;.:.-.;.-.

■ft 3f I 00

s eg o

3 IO o> oi CO

CD

4 CO IO eg CO

CO ee

e» CO

eg ID

3

AMI III«! "■■ "2 ■■! llitfll « 0>

o eg to IO r- IO CO

CO o eg

tlillf fcö

o •<* CO t- to CO e» CO CO eg

•*

■'<

lliiiito S8«K; IO CO o IO 5 9 a CO CO •>*

CO Cg o co

eg eg o

s**S* o «■*< «-H Cg Cg o o r-t

" CO eg o

::«J U3 eo l-t o s ■» CO CO

ÜI o O o o o o o o

!--C? >-s:; ■'/■

tlllillll lO

to

o o O Cg

o CO

»o CO C-

o eg

CO

o CM IO

IO

IO

o 10

CO CO o

CO o CO

&ii*"r

1I1SI •* •>* lO 00 CO I-H (H •* ■* CO CO ■*

o o o O o o o o o o o o o o

o O E*5 E* i>

eu B

w 63 X CO

E* W W B CO

■■■g:fa-,i.-:"

!:iilll::::?

•\v::::;'\:-;:.-':-:.- • :::::*^£::::Pö:::::::::;:;:;::::::::: Si :-

111

2l '!■•'.'••:.

lO V m c S* °

CO

E-

IO CO t- E-

SH SSSSs

18

8-1027

7475

eo o

eo

X

o

K S

1

■<r ig;:;

W!

>:::^:Ä:$:vft::::;::::::::

•o T? 3

;:"i llili ■ io

10 S

fa

3 mm O

III«

f 0* to

eo 00

3 eo co

4 CO TO 8

IB 05

d CO CO CO

OS IO d

P™1

lili W ^ o CO s •* o IO a> CO

CO IO CO

| •*■$£ co o o o •* w o CO

o :*>:::::::|:;: > « «5

CO o d d d

IO C4 d

w O'^s IO

i N o IO

CO IO o IO

o o C4

o o CO CO IO

IO 6

.j;R*:*rr :,

8811 d 00 d

oo d d

IO o d

IO o d

•<* d d

CO d

00 d

IO o d

-* d d

CO d

J-5 T 1 < «2

•< J a.

H cw

• • »5 O ►H A-:v:::::::::::::S:::::::::::::v::::::$

H :;t::::;ä:::K^-W;-'::: g OS

W 2H X

IM

O

Hi

IO i, to e r- o 6- U

fa IO IO CM

»—< IO CD

8-1028

7475

o

<

O H

1 Hi

■

i ■

:■■©

«I ss*;s

5 d

8)

CO

9

i* o d

I Ö

1

■

• •

O

5

o

o

8-1029

7475

«4-4 O

CO

05 1-4

CO

a

i i o

1 HM

-O'

i§£ 5

lip: m

£ • illlil

isiiii o

illiil ■ill

1 2s co

CM

•* l>

■*

to CO CO CO

t- o d CO

IO eo CM CM

ex

CO

CO • • ■ q

TO CO q CM

CM CO eo **

lO ID CO

05

4 d eo

«o »■*

CM CM

CM id CO

co

3 CN

e» °S CO

CO

d CM

eo 05 •*

d CM

eo eo d CO

OS

3

1 §i£s CM CO CO

CO CO lO

CO CO

CO

d co t-

o

O IS O o •B* ■* o

«5 w®

w ■■<3?^' '■ wfmwmm

as US ft - - CO - - CM

CM f-i - - io - t-t

d -" - "*

^Ä ; ■ © d d d CO d

CO d

CO eo d

to d

io d d O

d CM

d d d CO d

io d

D a:. ■ &a fr*

§o Ed X CO

<

$$gmm H tk iJ

55 O NN ::ä::::::::¥:::::^:::;ä:::::::::::::::ä:

H Ä^^piÄP> «j ii H ■III « l||lll§llllf to 10

CO

o OH

1 6- EH

8-1030

7475

o

<

O H

s toe o fa a es

02

1

I

■ SiiSä

w «I

OS

05

ec W

MjMHMMWN^^

!:::Ö5!l

i

• • S3 O

3

^ Ö

SI iff

6H Ed Ed X to

E- Ed Ed a CO

a o to

8-1031

7475

CM O

!

to 05 lü!

1 «in

3 ::.e>:

o

ci CO

■

• •

O

H I 3 O

s& o d

o d

H

s 03

EH 63 a x m

I 8-1032

7475

CM O

1-4

05

oo W

<

O H

s

1

• •

O

|

H

o

Hi säg*

11

;-»

:•'•<* ?;**;:

X lO CO

00

d

CD Ö CM

CO

;.:M:j TO lO

Ö Ö

EH a Ed X CO

Ed

1 Ed E-

Ed Ed X CO

s

8-1033

7475

«4-1 o

©5

00

3

Ü

I CM

^ ?.©'

00 0)

CD 01 d 05

ce oi

%m

K X CO a.

6* Ed Ed X CO

s

8-1034

7475

o

05 iH

iH • OS iH • CO

a

»

I O MM

a

«j M j

t

• •

O t-H

|

a o

1«

■ ill*

ssääSSs I .3 Mi

■! saSs

*P

II!

§5*;:

CO

III CO d

s o.

8-1035

7475

C4-4 o

m

es

■ (0

s

■■■,.»:■

03

00

C3

o Q

O

K 5 O

öpä;^

H Ed Ed S

Ed Ed X 10

EH Ed Ed S CO

8-1036

7475

CM O

OS

CO

W

E

WE

■

O

|

o

Ü8P

li hsöfä : 1-4 ■

!«:!

1

±!

«

sis*

s;«5

1 a.

8-1037

7475

CM O I

bo © fa ■**

es

■ il lull o II»

3.

m

■

1

■1 t

SiWS

CO 1-1

°i os

CO

a

i

H • •

O

K 5 o

;:>ö5\;

63 as CO

EH Cd 63 X CO

8-1038

CM O

1-4 cs

CO

H

I

fa

Q

ob

O

o

3

r$si

ID! m P<

HI

86*

8-1039

7475

CM O

<

o

2M

tH

«3 H ffl

co

85 2 e: co

a 9

Si

I

W

o

see

W Ü8?

WE:

o

I« O ::Ecjjf:::::

&«;

Ed

ft.

8-1040

C4H o

OS 1-1

Oi

a

<

O H

CD

ab

S5 O

es o

BSSi

8-1041

7475

o I

i m

a

m

o

©

0)

w

X

O

I

ab

O

o

;::iÖ"::

8-1042

7475

CM O

ÖS

CO*

W

W

ftt

I

HMMiUtMNWUMUMUUMMMMjUM

S$

ÜÜ « ■ a

5 £

ill

8-1043

7475

O

Q

IM IÜI

25

I WSSs 11 iii

■

Sä*;

s:s*s

05

CO

a

a 05

• •

o 13

?«

a.

I o

8-1044

7475

es

CO

W

tt

as

ä

*

2>

rfi

Si

63 5 <

z g n w Q

i*

in p. o

el*

0 a.

I

O u

j ob

fr>

8-1045

7475

O

es

00

M

*

is

Si

Hi« 2 g s g

aia

■i*

Q

o - ~ J Pä -B

S?5 & o

Sis;

o Eh

o

o u

u u E-> 8- Ü

E" W

3 ©

E- u U

o S

8-1046

7475

W

2>

6

8

CXI

OS lH

GO

H

9

M

10

3

si-» ;*£*

z g

S

6 Q

§2«

**

9*5

H et

fel£

r o

z s

Ü Ü EH

H<3

E5

8-1047

05

cc K i-J

3

a 05

CO 00

« to 00

o o

i o u

o u 1

o u i

e O

1 o u

I CO 00

04 CO CO

©

I © o o

Ü

I ©

I ©

1 O

Q «

CO

01 s ©

e OS

00

s s ©

CO

0>

CO

© g ©

00 c* 0)

8 OS

CO l> 0)

CO

©

CO

at ©

00

© © s ©

CO

© © ©

2> 33

1

*i •a ■**

c o O

0 o o s © o o s o o 04 g o

0? © CO a o © o 8 o ©

ct s. s o ©

Ö co

CO CO CO S3 00

CO CO CO

CD CO

04 CO

CO CO

CD CO

04 CO s CO 8 CO s 3 eo CO CO V ■v

t • to 0«

!S ft C9 s R a e*3 5 a 04 <0

© r4 s & s s 51 3 5 s CO s d Ö o © o o 6 o o © o o © © © © © o © ©

§ g la < CB

s CO o s

IO to 00

s 8 8 s ID

8 o»

£3 CD

8 CD

8 CO

s 8 8 S ©

s ©

8 C4

R a £ 55«

a ** iM

z 2 H a

B H Ü Ü

E" o Ü

E- o

E- Ü

E- O

E- Ü

E« Ü

E- Ü

E- U

E- U

E-> Ü

E- Ü

E- E-

z

s -§"3B CO CO gj s s s 00 C4

a 00

3 a to s

CD

S o) a S

CN

a 1 CO

R CO

a 3 CO

So U3

8 CN

e= o o © © o o o o o o o o © © o © © © O

a ft.

g i ^ * 8 1 g R 04 IO a

©

a 0»

s ©

© § i 8

04

a 1 o CO

©

CO

a CO

©

CO

a a "01

a

1 01 CO w 04 04 i-t •^ t-l 04 CO CO 04

*" 04 04 CN

|ea t» 04 04 04 oi

CO 04 C-

CO 04

OS 04

o CO CO

04 04 « CN CO

04 CO C-

CO CO 60 CO

© © CO CO

c«-

s es §8°

H<s

fe^fT 33

51 gg£ «o

p p

B* Ss c* s ffl s s t» g CO a s 04 CD a a g g 8 8 s s £ CO

o o o o o o o o o o O © o © © ©

« 3s

OS 5 0. O

a. E3

z o & lo 'S

g §

o o

8-1048

7475

tf

ei 00

H

as

I

M

is »fp

a

5- (Is

2 2 g«. *=§-<

z s a Q

B? ai« e8

ii*

9E?

O &

o ft.

z g

o u

8 d

U E- U

fr- ei

H3

Eg

8-1049

ÖS iH

CO

W

tf

Q

5>

s

5S 3 d

3 d

9 d

81-, !*5<

as S a S

id«

ii*

9*5

a«

ale

E" U

E- O

E> u E« U

E" Ü

E" U

E- O

E<

9 a

a.

i

o u

8-1050

05

CO

W

9

W ft. o o o o 0 0 O

0 Ü

0 u 0 u CO CO CO CO CO CO CO CO CO eo CO eo CO

S s g ä § s SÜ g § & CO CO

CO CO

CO CO

CO CO s CO

CO CO CO s CO

CO CO CO

CO CO s CO

00

1 p- p- p- e- p- < OS e» o» 0» CO os CB o> en e»

Q

is T3

C o

U

10

ei CO

1

2 o rfi e

o Ü

CM CO CO '•

„ s o

p- o 00 s o g 0 0 0

eo 0 0

eo 0 CO

O CO

0 0 s 0 s 0 O c- g s g

« CO § o eo

eo CM CO

0 eo S5 a CO CO s CO 8 10

CO CM eo

CM CO s s 8 s

h s 9 s 5 5 3$ s 8 s 5 s S3 s s a s s m *> 3 * 3 s? o © o o 0 0 0 0 0 0 0 O 0 0 0 0 0 0 O 0 O 0

to

oi

BE- OS CM no ■*■ "V p- CO ■w« 00 CD 10 s g3

Ö 8 s 8 Ö 0 s Hi s s ä $ a 0 0 0 8 s 5 B CO P-

CM 0 0 0 0 0 0 O 0 O 0

M Z 2 E« E« H E-» E-. H B" H f- H E- F" H p- H E" E* E- H E- H E-

M . a

u U U U U U u u u O u Ü O u U u O U Ü Ü Ü u

IS z i>

o "ll- B~ i I s t-

CO P- 00

O

g U3

s CM

8 10

s 8 8 8 8 8 § 8 8 i en

82 S P- i S

■M*

w *•« <x <-" © 0 0 0 © O O O 0 O

M OB Ä P s Ä to OS 0* ■9* .-« 0 O 0 0 Ö 0 ö —

8 s s — 2 §•2* © £ If g $ £ 0 $ s s g 8 8 8 s 8 8 O

§ S~ N ^ »■« •fl" N ** CM CM CM N CM CM CM CM

3 Sg| «? to 10 CO t» CO o> _ 00 c- 00 (N O) CM CO P- CO O 0 CO CO

CO CO CO CO CO CO CO 3 g p- p- CO CO CO to CO CO

W e- p- t* e- to

Ü T3

W «

"3 J J -J fe° oi Ei ob

i^£ fri eo CO

fsg1- « CO

6 s B* s s s S & g g g s 04

CO 04 CO

CM CO s CM

CO CM CO S 3 CM

CO CO g «3 CO

CM CO

B- *4 ^ ^ O 0 0 0 0 " CN CM CM CM CM CM CM CM

Q

§ § o g O « Ä 0. o ft. E(5

« OS d

E

2

1 1-H 33 v« ^^ 10 ■£ 10 to 10

s s 12 s o u

8-1051

o

es PH

cd W

3

«

es s

g

M

5> is

9 ©

z o

a

8 »ats B8

\S*

m M ai

eg*

6 g

Ba

o

Z o

E- E-> o

6- O U

E- o ü

E« U

E« ü

E- ü

E- U

E» U

E»

E- «

E- K

ob

E"

8-1052

7475

§ § s < a

I is

*

^

Iii< M

cd H

z o s

id«

ii*

9es

eg*

17 9 D §

0 kc

g

O Ü Ü Ü U

ob § u ob ob ob t- J

§ I

8-1053

7475

< a

8 2

I

M

is

■rfi s s

s s

5- 8 s

BE- isS«

tf z o

a u

E- U

6« u E« O

E- U

E- U

o H

B-»

OS

CO

w

1-2*

9«s

a as E"

si

9

§ o

Z o

o u

8-1054

ä

7475

2

tf

'rf

sg., §;§<

99

ÖS

oö W

u H 0. CD

2 g CD W Q

U o fr" ü U

■2*

all ^ ÖD 5

ei*

S| 23

SS o

p a §

B B

0 Ä ß E5

Z P

0 u

8-1055

7475

OS

00

M

3

is

M

■rfi

£

*4«

z o 58 H a

si«

ii*

3ei

0, O

B7

o to

I

0 u

g a o

§ E

u E- u

E-> Ü

EH U

E-i U O

E- '

a c Eg

8-1056

I is

7475

rfi g

h Si-» :*» S <

z p fr- fr Ü

s w 0. ED

§2«

iH

CO

H §

•s*

3*9

§5°

eg*

sj *1 c

s a

o fee

19 C

S3

z o

o u SO

8-1057

7475

a I

M

I is

5- ^5

eSU si*«

10

I»

z g S a Q

CD

Si«

O Ü 6" 6*

U U U Ei

CM

OS •

CO

a 3

I I «*

|||

B) 0 Jl.

s Q

8 a. o « E E5

z p CO c

8-1058

M

< a

5> go

rfi

7475

O

OS

CO

W

M as o

§

is*

9PS

B ö

1 §2 |5 =

o

8B

O u

ü Ü E- O

E» U

E- U

5 »

*1 c «3

Eg

m c

8-1059

Cd •

• 00

S

SS © © S © © o © s © ©

Ü

0 u 0 0

© 0 u O 0 © ©

1 1 1 S I i Si s S g ä ä ä ä s ä 9 i

I s © » 8

© 00

OS © s © ©

© © ©

CO

© g a

©

©

©

©

© © ©

s ©

8 ©

M

5> 5 M T3

O U

4 2° c o

2

8 S s s s © o

CM s s s O 8 © CO

0 s s 0 s S CN ©

CO s CM CD © © -** 5 to S 5 © 5 ^ •* •«• V

a

li CN s s s 8 ■* •* s s to © 3 3 s a s 10 a 8 ~ © © " ^ o " p* ^ •^ ** ^* *" ** *"* ** »■«

■a oi

i s ^< a» ©

s to s

04

s s CM to

to s

o s 1 S i 2

CN

S CN

S i 1 © s

Ö S5 !S

a CM CM CO CM CM CM CM CN CN CN CN M

z a f- E- H E-. t* H H H H H H E« E- CD H

■ B

U O u u o U Ü o o O U Ü U U U Ü

2

B en to 00 s •*•

s in CS

to to

© © TP

to s

CO to

CO to

00 to

to to

IO © s

CN © t>

O

g s° CN <N CM ** ** <N '"' *■' 1-« '^

■" *" CM

p | o * S CO

R s © s s

CM

s s C-

s o s R

10 s 8

to s

IO

s 8 | © g s

l ■v •^ CO CO •*r •v IO CM V ^P ■«• ^P ■«• ■^p to

9g| t» e» 00 00 CN CM CO © e- ©. ©. p •*• to

•** CO CO to

-0« CO CO to

to ©

to ©

to ©

to ©

to ©

IO © © © ©

0 «. 3*

si fe&fT

•a

Bg£ K ö

U Ö Q g

H? S s 8 9 g to c- s 8 to

O to s IO

0 10 8 0 to e 8

r CM CM ^H CM *"' CM CN

*"

eu 0 ol C

E5

2 0 e 8"«

PcS 0 u

8-1060

7475

91 OS

CO

a §

a

S

is

rfi

Bg-» fcS«

z a 3 H a

i*

9*5

I a.

8? S & o

ale

g

z o

o Ü

8 8 18 s s

6« si

3

8-1061

7475

M

I is

Si

s

BE-* i*^

2 s

z a

§ U O O

E- O

6« Ü

6«

s A. CO

B>»

OS

CO

W

ii*

III H3

s o § ft. o

fee

z o

o Ü

3"s

8-1062

s

is

7475

M B/S

J2

81-9 sl«

tf

8 SS

z o X

g

'S dB

E- ü

E- ü

E- U

E« ü

E-> U

E- ü

EH U

E» U

04

OS

00

W

i*

9*3

H g

fe££

s a

1 r o

ES C

S5

I SS

o u

8-1063

7475

a a §

t 2>

i

si-,

O

M

o Ed ft, OD

2 S 0)

s

|5 =

Ü U Ü Ü

05

00

a 3

I i*

In 8s°

g5

o a c E<5

85 o

O Ü

8-1064

7475

94 OS

cd H

3

«

IS

§

et

I is

* ^ 5

VI

5~ *4

Bg-,

s 3

z o

S -"

ii*

9«?

a

wtf

o

Z p

o u

u

■^ c

I

U O

8-1065

7475

es ES I

3

M

2> gS

^1

3 S3

8iU [zS*

o

M

IS

s CD

z S w Q

BBS)

E- ü U

E- U

E- U ü

E- U

E- ü

E" U

E- U

E- U

94

OS iH

oo §

i»

Mg QQ

E-

Q

0.

B7

as o

o u

8-1066

7475

es iH

00

S

M

OS

1 is

2 I I I §

M rf!

ii

32 *4«

2 a

8

id«

i-ä*

9g3

Hg

S

z o

o u

EÄ O u

8 I

es s

s a s s s s 8 8 3 S 8 8 8 8 8 8 8 8 8 8 CO eo CO « « CO CO CO 03 CO CO CO CO CO CO CO CO CO CO CO

at e ES

8-1067

7475

S

5> 5 H fea

tf

til

BE-

«

M OS pH

CO

W

2 a So Q

ii*

o 5

gas

B*

o

I

o o

I S 3 !

8 3

Ü Ü U E» U

J ■ ob

-a ob

OS E- K

ca c

B5 8 s

8-1068

w SL.

I 2> is

rfi

7475

Si-* g3

*J«

M 2 a o u

10

8 0. OS

a 1

i*

9P5

H S

Sis: UP6 si

s

J ob

P Q §

!l i ft.

I

8-1069

7475 a s

3

is

M

'rfi

^1-5 si«

M

O

94

05

CO

W

3

as o

M Q

Si"

i*

|il M « 8ä°

o i.

§

3 g a s g a < a

5 o

6- U

S d

ob g u

H J

06 fe

S

a c ES

8-1070

7475

PS s 3 I

M

I 2>

rfi s

9 d 6

BE-» i^S<

M z g a H a

ü E- u

E« u 6" U ü ü ü ü

6« O

o w

00

S 9

•2*

9*i

feie en*

Di

E« «'

E" E-

EH

6 Ö a

B*

o

s ei

Z o

8

8-1071

7475

I 3> 65 5

M

t &

s s 6

Q

Ü

O ü

M

IS a

E- O Ü

E- O

i "3a

OS

CO

w

9

i*

9|

a. o E- ob

J ob ob

o

B*

2 O

0 Ü

8

8-1072

OS

3

rf

*

S3

I 5> SB

S>?P

'I I

IS

J

&e

I a J"

S = w

B B CO

E8

.5*

P Q

8

Säe 1213 ^

£

fr- ei a OS

fr«

si

8-1073

7475

w

rf

OS

M

K u b

< Q

3> 2 « feQ

IB

o

5 7 <f a»« k

\S*

a. o x

i? o

eu o

3 el

i— to 5 5

H J

H J

8-1074

o ü ff}

• Oi

CO

a

>?

I 5> 18

5>

if "5

1**

EL.

H 's . Sea Ss«

§2« g = a

!i*

|||

H K a. O

Ö Q

A. £

ii

8-1075

7475

O

©

©

9

tt 00 « « CO CN © © CN ei CN CN

s © ©

« CO « « CO «

go 00

s to CO

CN © CO

CN © ©

©' © ©

CN © ©

CN © © ©

ab © © ©

CN © ©

CN © ©

CN u n

CN © ©

CN © ©

CN

1 Q

©

CN

© 5 en

© c- ©

© ©

m ©

CO

© © © ©

CO

© S3 © © ©

rf

3> fco

c o IO CN

' '• : 1 I

 © © ©

( 1 1

IS * © CO CO © V © © © ©

© t> CN « «

© ©

* o CN

• ©

* 3 8

CO Oi

o CO =

IO © ©

o o ©

© z^ © CN © ©

« ©

© © o s © »

a

c o u CN N"

© ; © IO

CN Ö

j :

^ 7s

c o

© © ©

© J j ©' © © N*

! I

tf

Jl « V © © TJ- w © • • s fe to c-

CO © © « N* © © •a* e» « ©

«1 S°: CD IO © CO ©

© ©

© CN m

CN ©

c- © « t» V V s lO «

rf Si j S8*

||; o o © © o © © ©

© ©

© ©

o o ©

© © ©

o ©

© ©

© © ©

o ©

IS 8s SO

•'■«:■

o to es

to ©

CO n

IO © ©

© CN « IO

© © CN

© CO CN CN CN w « IO n

4*<fi'': ::':W

tf p OS 8Ä* i i j i j : i

o © ©"

© © ©'

j 1 1 I i i © o

IO CN

0 :ifiO;-

.. ■'••:«■■ g

si- iss

© ft

© CN

o © us

o CN

© s

©

8 o 8

o s

o s

o 8

© © 1 s ©

CN ©

to © s

o

1 S3*;

V IO N" ■V V V © •V © V

" " «N CN n

© s

o s

©

s o s

© ©

© 8

© 8

o s

© 8

o s

© 8

© s

© o CO

CN

o Si i i

o S

IS •V V © © " ■w V V •V V N1 ** *"* ■^

,—

z B-* S IB o 8 8 8 §

© © o

© © CN ©

© ©

© o © ©

8 8

«Q

E8 o © © o © © © o © © © © o o ©

i i* s o o o

© © ©

© © ©

o © ©

© o o

© © ©

o © ©

© ©

o o ©

© © ©

© o ©

o 8

o 8

o 8 1 1 §

© w IO © © © © © © C5 « « «

a ., ~ _ »— © #- » w « CN V ■w © ©

CN C-

CN t-

© CN t*

CN © c-

CN CN to © CN t» r- c»

J T3

•J J J J J J ■3 J

Ei o Ü

fi fi H fi E^ ti E

i^£ F-I 7s

H f-: E^ H* E-; ti C N * egt e s

u OS cs BS K c a

P

Jh ff s R 3 s s s 8 CN CN © © 8 H a a 8 8

Ps o o © © © o o © o © © © © © o

o 1 co

T5

c o V

1 CO

% JZ CO

1 X. CO

1 X CO

1 CO

o i CO

*$ o 2

II s

y

1 u

p © © fr- £ £ £ c 5 i 2

8-1076

o

Cft

00

H

es eo CO CO CO eo eo eo CO eo CO to eo ^ ^ ^ » » i

a CM CN CN CN CN CN CN CN CN o © o Q a

S 00 CO 00 CO 00 00 CO 00 00 DO OO CO CO o O Ü Ü 0 o

1 CO eo e e Sf* 5 S5 en fe & 2 OS Cft Cft O) O) en en en en

5> i t» | 1 ] fea

rf rfl = I t i

©

lO CO

I 1 i 1

IS * o CO

CO o

• t- 10 eft o

• eo CN o

* CN

10 o

CN CN

CO Cft

CO

to o

• CD

CO O)

• en ©

CO en

• CO CN

C^ Cft

• LO cn CO o

CO eo

CO

LO

d Cft

CO » o CN

00

• o L0 00

• o ©* 00

© eo d CO

S d to OS

C4

5> I . to i |

fee

4 I J j en en 1 I i 1

M fc

„^

il IP- CO CO CO «"?

CN OS

CO Cft US

CN CO

CN CO o CD CO

LO e»

co c^ o

00

• ©

• s o ©

CO R * 5 g CO

to LO CO 8 ©

to CN CO

en LO

o CO

t"- 10 00 oo t> CN

LO LO CO en en ä

rf ^ $$V © © S © o o o © © en t-

^ *c ■N" CO CN LO en LO CN P?

IS

• 8 E

1 o eo V o © © CO

eo CO eo eo

CN CO CN

■9" eo Cft eo

© eo 3 CO

OS 8g* ; i i i j : © to

© LO

10

o ©'

; 1 1 : : 1

o ¥::«:■

FIN

AL

, (I

n.)

2a, K * «ft © © CN CD ^r IN en CO e* o o o

2

*8 sag:-

s g % Cft » g $ en o — LO CO : : 1 : ! I

| CN CN ^* F" CN *"" «— CN CN V V CO

P »a

INIT

(I

n.)

2a. ■ o

B :*&■■■

LO CO

© to

lO O CO

© oo

© r- to

CO eo

CN to

CO CO

© 8

o s

© s

© 8

© i § ©

o

5! (0 © © o *tr ^ V

z

TH

ICK

(I

n.)

B en (ft ^ •-« ^- to to CD CO Ol m

■a s 8 s CO 00 S $ s a Ü H s s a Ü

o o o o © © o o O o O © © © O O © d o

*1* w £ *■* © © o © © o o © O o © ©

o ©

o o en en en s S s a. B - * © g X g X X X g X X X X g o © s

CO. *~ eo CO eo CO CO eo CO eo CO CO CO CO CD CN N CN CD CO CD

9g5 *P »0 ^ ^ ^ ^ CO eo LO LO CD CD to L0 IO «? en en en gig ■w ^ V t> e» t> f* i> t> t> c- o e» C- t» LO ia LO to CO «0

0 ~ J -a -J J -a n H H H

8>° f ci fi £ fi J> Jj Jl A

l^£ u ■3 lO to H o o ©

£g^ GO oo 00 CO K

1 §2 s s s s 8 s CN CN CO 00 s 8 s S s S s s s B- o o o o O © o O o © o O © eo eo CO o o o

O (4 OH

1 1 6 1 I I 8 « o ■S ■S

o h tf 5 CO CO CO E £ E £

Si fcp > to

LO L0 s IS

II t- H fc~ t- H P e £ e

8-1077

7475

tf

©a

a 9

Si e

i go

5> ßo

^2 <f 5 = « h

ii*

i*

ö Q O K &

3*5

Mg ft. o

B?

o

5 i Hl

D O

Q Q O

o o

o a a o

fr-

fr- ei

fr-

fr- ei

fr- ei

fr-

fr- ei

fr-

fr- ei

fr-

fr- ei

fr-

fr- ei

8-1078

CO 00 CM CO 03 CO CO CM CM CN CN CM CO CO « rt Ä * s CM CN CN CN s s s 3 s s s CM CM CM CM

g © © © ©

00 00 00 CO CO 00 © 00 00 CD CO GO CO © © a

S s fa s s O) O) OS en © © © © © © © © a> © © © © © ©

rf

2> 1 © CM i J I ! i 1

<1 T3

C o

CM

1 i i i i !

1° • CO • 00

• * 00 © 00

CN CO

* CO

• * • • *. ?N • • *\ 00

©

to CO CO

•V CM

CO ©

© © CM

V CO CO ©

o? t* 10

CN

©

£ © CM ^" to CM

" " ~ ~ " •-»

5> J ^- ©

a c

go c ©

4 u © ©

i ; 1 I ! 5

if • ■v $

co 10 10 00

CO © o in

CM V V © CO

to * CO to

• © cl © «

s

• © 2 s

rf

S sso 00

00 en 00 o © » CO

© © © © © © ©

© o CM 5

CM © to

©" to 5

is <? o o

© o CM

o o ©

© t>

© © CN

© ©

© CO

© t> ©

© CM

o c-

© ©

o © 8 s g

IS

SSSJ" iS:«:'

%

CO CO © ©

eo 00 CO C0

p- CO

CO CO

CD CO V

© CO

CM © CM s n ©

© CO CO %

2 o 5 6a . o o to

© ta

o © o t» £ ' © ' • CD t> © t«. c»

^ o

::SO ■an-

2" as« h

S te © o © o © © o o o o o o a. ra H

'I if ;*:«.■■

g % to X a S s CM a s s s CM s 8 a s A

| " V CO V to •V V to to to to © IO to •C" CM CN ** w

P «a

INIT

(I

n.)

2a. SSO

:;:So:

S: If § § i o

s ©

s i ©

3 © o

s © 8

o 8

© 8

o 8 i § ©

CO CO © g 13

* "■* ■v CO •v v v CO CO

■"

v ■v ■v -V T- ■*• -^ - — ""

2

TH

ICK

(I

n.)

B CM ct CM © o © o © to to to CM

::¥*>:: sss:- 8 % 8 £ ©J £ s g 8 CM CO © CM CM s CM 8 s

Ed

O o O © © © o © o o © © o © © © © © o

a o s © © © o © © 8 © CO 0. B ° * © o 00 00 GO CD o o o © o o © Cfi

£~ CO to CO CO to io to to © CD CO © © » © ri CO CO CO

3e? to to lO CO r» c- t» c- CO V » V CO © © © © «N. es |il o o o © CO © g s t> CO w c- r- © © © © © © © e* 1 c-

o ^ 33 U Ct! SI t t- H H H H t- B. 0 i Jl Jl A Jl Jl Jj (0 u

M* JO

^ E f & f-; f^ t^ cs CM

gg^ cd § C a K en «

6 B* 8 8 8 8 8 s s 8 8 CM CM CO © s 8 8 8 8 8 £~ O © o © o o o © o o o o © o o o © © e>

o

6. | 1? ] 5 1 1 1 4>

a a E o

V 5 .e CO

J3 CO CO

§1 ^ ■-H M ^B t^H *M

£ c © © © © © ©

II t p {= p £ p p

8-1079

7475

rf

M

O Ü

N N cs

CO

W

is OB

6a

£

3>

h?5

2> feo

J

So

o

$-> « a.

ITT

.5*

a. O 05

D Q

§ a.

P*

o h

-5 S-

8- OS si

8-1080

o ü °? el OS

OS

H

»a

PS

I 5> IB

IS

2> is

Xj

i

Eg

w §2.

i*

elS w g Q. O U3

esie

s Q

8

Hi

o

S!

i? °

PS

8-1081

S

« CN « CO

CO

CN to CO

CO

IN to 00

CO

CN to CO

CO

CN CO CO

CO

CN to CO

CO

<N to CO

CO

CN to CO

CO

CN to CO

CO

CN to CO

eo tN to CO

eo CN to 00

CO

CN © CO

eo CN © CO

eo CN © 00

Q a

a o

i a o

eo r- ©

eo t- ©

eo en

5 5 ©

CO

© 52 en

eo en

S3 en

eo cn

CO

en S3 ©

S3 ©

S3 ©

S3 ©

ss ©

S2 ©

, , , , © J 1 j

rf 4 : ' ■ i c

cr 1 i \

a?- • CN to

tO ©

• to to

• • LO

© o CN CO

• CO to to ©

* to

CO ©

CO CO

CO en

• c*

©

• ©

to ©

• a> LO

CO ©

CN 10 CO CO

to CN in ©

© CO

©

8 Ü

o CN k>

CN

o CN

Ö CO

5> 2 W

, , i

. : o ! i !

a

go

r§ . : tc ! i i a M W

M *

ill • • o * c» • CO

• * to

• • © CO CO CO o o © g

8 |Q;;

■|[S--

CO

E 10 LO lO

to CO tö CO

LO eri in

©* to

© to

© LO

©* LO

00 e- 00

C- 00 1 CO 8

rf 31J O © o o o ©

CN o ©

L0 © CO

o 8 8 © o o o CO

© © a

IS 88 CO $ co

10 eo

CO LO CO

en CO

CO CO

en CO

© O © CO

CO CN s CO

eo V a V

1 j © en CO

© ©

CO CN

; j i : j o e»

©

OO"

©

C0 : i i

0 :.-0 a ^. g

«ES 3-? . 5 5«

to ft

to CO

a o s

© to

CN LO en

CO

8 o CO en

en 8 8

CN

©

o

LO

©

s ©

i i i

1 »SB.;

CN CN CN CN <■* CO «-> CN CN CN u V V

in co to

t» ©

8 ©

8 to io

LO

CN

LO CO

LO LO

CO LO

CO © § ©

8 i © s o §

:;.ü-

- ~ ~ CO "" *" *""* IM ~* *m © V v ^* V •J»

z §2m o o O o

8 8 8 o s

o s

lO

8 LO

8 LO LO CO

8 8 8 w 8

U3 CN

to

Ü Ed 0. CO

i = v:;-D: o o O © © O © © © © d O Ö © O ©

o s CO*

o 8 co

O 8 CO

© 8 CO

© O O to

o o © to

© 8 eo

o 8 CO

© 8 CO

©

8 CO

o 8 CO

©

8 eo

© o © to

© © O

CO

© © o ©

O § CO ©' LO*

n ai = to -J« ■*r CO CO en en _ ^ ■c <q» -• to tq ©

to to o o

e- c- to to

Iß to

CO* to

CO to

to to

© © t- C- t- fr- e* t»

1° J J

6-1

»3 -3 6^

CN GO

CN 00 so ( o

Q CO CO a,

E-'

B5

6 Sä B s 8 s s" s 8 g s 8 s « CN s 8 8 8 S S

o o o o © O o o © © © O © © o O ©

Q

§ 0. o I

1)

o 8 I 1 -S CO CO

1 CO

ffl c E

« E

§1 Eg o X) ' o © lO to to

II i ■*■ i 1 I t- p E e

8-1082

LxJ >

Z> O

LU O z: < I— in CO Lü

m O r- 3 <«- r^ X

o 2£

in.

Pane

l L

-T

.266

o c TJ " — m C .. _

JZ O a (0 US 5>- p D 2 ü c Je J=

jOhJ £ c c c w o © u ° E E E CD o o o a. a a u >, a. a. a. Pen {/J (/)

.o

m

D <

c

_o ■ f

E-s H O

ü_ o O 00

I ic m •> FOE > o < ^ Ö .y

— " s E

C t O O u u. owe

*: ce u

.o

■. •■

O <D

#> V» O <D

M— M— LÜ

C

en ■° 5

o

o o

T 1 1 1 1 1 1 r o o o o

o

.a o

(HA!s>0 "X *HSUS1UI SSSJ1S

Figure 8.19.2.3.1 8-1083

Lü >

z> o ÜJ o <

SU Lü

1

in ■O

5 -

r^ X D 2

l • c

"5 _*.

£ ii ■*? . o c M>

■o u p~~

o c .« <0

25? »~ s9

r-C

rie

n hi

ck

£

2 501- 3J

§ 5 £ 0 * *

c V E

ö u 0 0 a 0 • V £ a- a- a. H w c/i (/>

"2" _o U- ^ 0 -M O

00 TZ c I W — ^ .« Ic in • m

r^ w kr 0 tu 1- d> 0 <

's^' 5 a C3

c \ a in

• » V

ndiii

on

rm:

Pl

: 15

0.

0 c £ 4)

E c 2 >

0 0 0 V c CJ L. * CK Lü

1 1 1

D a

1 1 r

a

T 1—"r

CD

_o c in

M- »+- 0

O <

_o c

0> c <D

_J

-*

« n tn i_

O

a) >

-M O

_o CN M-

Lü

c

0 a>

O c € 0

o

.0 d

o o IQ

O O

o o

(uiyvjs>|) ö>j Ä}isii9}U| SSGJ^S

Figure 8.19.2.3.2 8-1084

_n in

Ld >

o LU O

-a o 3 X a

I . CO

11% . o c •a '• — m C »•

g £ S ^ S5'.. i © u ti ir2| «OH? c v u

Ld 01

c c c <D O O E E E

ö 'o *o *5 >; n. a. Q.

CO

u

•"Si •• J5 i «*

£ .. n

"o £ "~ ct.. o o o o L_ a:

o 00

I in •- o or ° <

S| v c or u

o o

T 1 1 1 1 1 1 1 1 1 T-

o o o o CM T-

(ulyVIS>|) b>| A}ISU9}U| SS9J4S

.u c in

M- M- 0

O <

.<"» -M D> C 

-M o O <N M-

Ld

C

<D O*

O c T™ o

o

.o o

Figure 8.19.2.3.3 8-1085

Lü >

Z> O

ÜJ O

<

V) V) Ld

o ..

o «

Q.O E c »I

at «- c o — «oi O CM

O • • * a CN a «- 9 C ••

es c c a o E E

ö u u o Q. o a o >;aaa Pen </) c/>

je o

iS £^

3: *2 \jB Ol

g to ■a P ^ o u o u

u. *

IO CD

I

IT

«I e g

c .o ■♦* n o EC 0»3 V. c ■>_._ »-

uooonoo)Mino __*-Of*3O^tD0DCM*- OOf-NOOOOOr ucoriwdddddd i>

o

- es CO

cd o

O CJ 33 s as CO V s ® ~ce

D

a a

D a

D

\

T 1 1 1 1 1 r -P—i r

.a CD

o C IT) • BH

V^•

H- M- 0 D <

o f

-*-• o> c 0)

_J

_* o

c

o K) i_

Ü

03 >

-H» o

a V H-

(N »+-: UJ

C

a> D»

O c • D

Ü

.o « o

o o

o o CM

o o

(HiA!s>i) b>i Aisu9û| ssaj^s

Figure 8.19.2.3.4 8-1086

Ld >

O

ÜJ O

< I- (/) V) LU

o ..

o • 8.5 l| 8- S

O . *- C C* — ci r^

o> •« ■ CO «- M «- o c ..

JK JE

II c c o « E E o o D f) O. Q. tn tn

u

IO,.|C n wir; I— <•-"5

> o O

2.. b "Op o u

o

IO CO

I

S3

ir ui

CD

c .2 ;»* » o EC 0»3 V_ C ■>_. i_ 0N2UUSIL(APN

UooonooiMino OOI-CMOOOOOT- ijtdcNoidddddd v

JZ u

_o m •—.

O

c 0)

■ €

tn

- 83

es

© cq »-j *^

■2 fl

us CG 0) 9 ® ~GG

u o o

#>

Ü o LU

c

JZ Ü

.o CN

'nn —i—i—i—r

o o o q

T 1 | r a o

i H i .o « o

(HA!s>0 "* ^!SU91UI SS9J1S

Figure 8.19.2.3.5 8-1087

Lü > (Z Z> O

Lü O

< I— (/)

C/) LJ tr

c o

© -a

If 5- 2

CD C O "" « <N °5 CD O CO «- 9 C ..

II c c o o E E u "5 o o a. a. c/i tn

M,„k n wkr

u. IO CD

I • Cft

c o u

D U c £

IT

C c E c &

1

c o

SS « o EC 0»3 U C ©_,_ L. 0N2UU2U.U|-N OooonowNioo __*-OfOO»-COCOeN»- DOT-WOOOOOI- ^cdcNoioddddd

v .£ U

es ^ -^

.S« « o O u

33 S QQ QO s ai ~0Q

S, ■4,

x

.o <D

.q C in • mmm

M- M- 0 o <

o • sz D> c o _j

_* n o K) k_ o U >

-i-» U

O tu <N ^

ÜJ

c

V o>

O c ■ o

JZ o

o o

T 1 1 1 1 1 1 | 1 1 ni o o o o o

(u[A!s>0 ** ^!SU9Û| ssaj^s

.o

Figure 8.19.2.3.6 8-1088

m

ÜJ >

=) O

Lü O

02

UJ 01

c — o ..

O S3

** £ o «

Is ll Ö o °- s

CM . n c o ~

n O a «- 9 C ..

2C JC ^=5

o o E E "5 "5 o o a. a. W (A

c

« o

§N2UUZL(0pN

-^■(OaOOrMDr- OMOCSOOI-OOT- («*■••**«■■

|IONMOOOOOO

u

n

je a

r- <r- gg

> a m

■a IO

o o

o o

u_ in (D

I

is ** in

I E £ g %

%

O o T 1 1 1 1 1 r

o o CM

V T—n*~T

0 o <

.o «

O» c u _l

-* a

c

K) i_ ü 03 >

■+-» o

O 0) <N M-

LÜ

c

CD D>

O C ■ o o

.o o

(HAiS>l) d>l ^{SU9}U| SS9J;S

Figure 8.19.2.3.7 8-1089

■a a 3 X a

Ld > a: Z> o LU O

< I— C/D

CO Ld 01

1) c a a.

w CM o c

'. fO o CM

T3 • ■ O s l_ « « O Y o UJ ■

u ■*■> a CO c

CM

S 3 P P

o I

c CO u

JC 2



L

o c c c o a 0)

E E E D U U U n O CD 9) > a a a H W (/J (/>

in •

i- n HE 8 CO ._ ** CO •- , a s2 » is: «

c t .. ^- o o o « - ■ :*: tr a O U Lu

.a CO

_o c in • <v-~

^-^

H- M-

■" <D o <

o 4 x:

-4- C a _l

_* o

• o ro L- o (U >

-M o

_q 4— CM 4-

ÜJ

c — t —

<D U> c o

_c O

.a a

(ui/us>|) «>| A}isu9}U| ss9j;s

Figure 8.19.2.3.8 8-1090

l_ü > er z> o Lü O z < h- tn in LxJ er

a CO

_o c in

M- «+- ■" Q

ö <

o

CP c u

_J

j*

_o • o n m i_ o <ü >

H-* o

_o CM «4-

Ld

c - ff BN

<D 0>

_o « C ö

JC O

(uiyvis^) uy\ /fysu9}U| ss8j;s

Figure 8.19.2.3.9 8-1091

Lü >

ü LU ü <

Lü et:

(ui/us>|) *:H ÎSU9Û| SS9J;S

Figure 8.19.2.3.10 8-1092

m

> Cd

o LU O

V)

5« § °" • 'S B •• •—■ C O « « 53 S "*

o » *? 5 2E MSB •«*• ^n

Q.O I- ¥

o c c c

° E E E Q 'S "ü "Ü Q. o o o si Q. Q. a. K(fl OT (/}

.O

u

Säg f * a 00

- £ .. £ o •>

- «

es 73 <* » N

PC a a 0 a 0

OS V) V 0 a tf

a« OS

c .0

M o Q. EC 0»3 l_ B 0_ i_

üo 00 eors. ««-—ao _+«OOJOO»-MDT- OMONOOT-OOI-

•j^co rsoidddddd

.c o

10 .==

0 Ö

.O

*£ C

o

O

#>

o .0

CM

% D

a

sz O

1—1—1—1—r T r T—1—*r o o n

o o CM

o o

(ü!A!s>0 W>1 *HSU91UI SS^S

Figure 8.19.2.3.11 8-1093

ÜJ >

O

Lü O Z < I—

c/) Ld

c —• o .. « s e S3

o ©

|5 l| s. s

CN

o n 0 C ..

■* =5 II c c o o E E o Ü o « a. a. (/) (A

2C JO IE

*•

o o-

c t o o

^s CO r* D n o

c~ £ o • « «*- o 0

sc a:

- ee

o o

-2 ä a o o ü

» CO a>

Ceo

n o EC 0»3 k- £ 0 —,_ *- QN2UU21LV)|-N

ÜO OO 0OI>» W»-«-CO

•ätocNcNÖddddö

0

o

a a.

.a cd

_o c m Xw*»

M- «+- ™ tP

D <

o t ■*

D> c 0) _l

_*

« o

ro i- o CD >

-M o

_q CN M-

LÜ

^C

Q en

O c « D .c o

.a « o o o CN

O O

("IA!s>0 b>i ><l!suslul SS9J1S

Figure 8.19.2.3.12 8-1094

m

CM

Ld >

O

LU O z < I— (/)

if) LU or

c -■ o .. ffl c

o c • «

a a o c

00 »-5 *• *. c 2C X

a t: "r ■o

CO

5 § H # C c a ©

° E E E a o u o Q. « a V £ c a. Q. Pen (/) w

c .o n o Q. EC ö»3 1» C o —._ i- 0N2U02L(/lpN Lq j- üOOOC0h»W-^»-0Q «-•—■- OMONOOi-OO»- |(DNNOOOOOO

V o

u

in

f o 5 ■a c o o

c- 2

LL. * OS

_o

D <

CO •+J cs 'S ^ £«" C3 O

.2 ü

GO as

Ceo

"\

a T—i—i—r

o o to

a o cs

T r o O

c

o #>

o

LU

C

0)

^ Ö

o

.o

(HIA!s>0 u>i *USUS1UI ssaiK

Figure 8.19.2.3.13 8-1095

Lü >

O

Lü O Z < I- (/)

(/) Lü

m r> «*■

r^

C •"

V o — 'i «Sio i_ O CM u

« c Q 1-

• « c o

5 nesa

: :

12.0

u a c a

Q.O i- # c o u

c c c o O V E E E

0) u o o n, a o t>

£ a. Q. OL

je o

W u

§0- 5 .. C o O

&

o

oa

.. Ä u o * OS

.o oa

c o

53 I» o

IN ÜOOOOOMfl-'-OO _*• «DC» OO *-r<*«0*-

SZiDctciödöööö v

i?3 »-JE V —,_ »-

in .—

■ «

- es es

'S ^t

es o

O ü E © O S ®

*

0> C

ü

o tu

#>

o

iü

CD

O

.o c4

^D, DD .o « o o o CM

O O

(uiA!s>0 a>i ^!SU9Û| ss8J}s

Figure 8.19.2.3.14 8-1096

L±J >

O

O

<

C/) C/) LÜ

-c o "5 c

o • ao

■+ . o — CM. <o o oo • • ■ CO «- a «- o c ••

II c c O l> E E

(D O °- 2. 0 O

je a

o a Q

> O <D « J5i5 c S .. * p c c •• «*- o o a o u u. * a

c .o ■P n o a. Ec o»3 L. c «>_,_ i_

°o oo cor», in«- »-oo DMOWOOT-OOT- ôDNCMododod v o

■\

^

.o «0

q C m ^—'

M- «4- 0 o <

o « -M O* c o

_J

_* o u

n n L_ ü 0J >

-#-> o

o <M M-;

Ixl

c

0) u>

o c « D

Ü

o o

T 1 1 1 1 1 1 1 1 1 "I— o o o o o

(uiA!s>0 ** *HSUS*UI SSSJ1S

.a o

Figure 8.19.2.3.15 8-1097

Lü >

Z> o ÜJ o < h- (/) 00 Lü et:

<D >

-M u

_o CM *4-

LÜ

C - • ^—

<D Oi

_o m ö

o o

(UlyVIS>Q «>1 X;iSU9Û| SS9J;S

Figure 8.19.2.3.16 8-1098

Lü >

Z) O

Lü O

V) GO Lü er

(UIÎS^) a>j /fysuû| ss9j;s

Figure 8.19.2.3.17 8-1099

Lü >

Z> o Lü O z <

co Lü 01

cd

_q C in

>>—'

M- «4- <D ö <

n 4

-M ö> c 0

_J

_* C) _o « o K) L_ o <D >

-t-» u _o 4-

CN M- LLI

c — • ■"■"

<D u>

1 ö _c o

o t o

(uiy^js>|) a>< Ä}|SU9}U| ss9j;s

Figure 8.19.2.3.18 8-1100

Lü >

Z> o Lü O

CO C/3 Lü

(uiy\.is>j) M^ X;isu9û| ssgj^s

Figure 8.19.2.3.19 8-1101

J.

in

Ld >

Z) O

Lü O Z <

cn CO Lü er

"O a 3 a

I _ c 9 — C |-

Q- JJ

-a "

o +: ES ° £ a o

03 C

d n «9 a «3

a ■o 5

o c c c O CO O E E E

ö o O 'Ü a. CD o v >; a. a. a.

u

I- CD I •** "91«- o LE o

§51 co o

^ i.. J> o o o u o u. a: a:

.q CO

D

C a)

■9 o

O

>

O <D

M- M- ÜJ

c

.q CN

B o

T 1 1 1 1 1 r T 1 " i° .q d

o o n

a o

o a

(UlyVJS>j) «>i A}|SU3}U| SSGJ^S

Figure 8.19.2.3.20 8-1102

Lü >

Z> O

Lü O Z <

(/) (/) Lü er

in "O

r^ 3 <*■

r*- X D

1 _c

Pane

l L

-T

m c KJ —

o CN ■a zi o m C .2 O 03 <o ü S3 a T-

85 C0

O c je f i « ü £ L -c T-y o o i- #

5 £ o 1 c c 0 « E E

Ö U o o a. * O V £ Q- a. a. KM (0 </)

CO

u<3 c

ö <

_o

U V

_o

c

O

>

.q O <D

«4- M- LÜ

c

^ ö

o

T 1 1 1 r i r P—I .o

o o Q O CM

O a

Qd!A!s>0 "X ^!sus^l SS9J1S

Figure 8.19.2.3.21 8-1103

LU > a: O

Lü O

<

en Ld

"O a

x a

I

~ä

o^ °- -J ■a " .* O U 33 ES

o o

OQ . w c m — d <N

q n «0 a v- o c ..

■* -E o £ £5

CJ c c c CD © u EEE

© o "0 'Ö £ 03 CD « 5; Q. a. a. H 

5-s 1- o

C--S

!§

m . 0 .— 0 ^% a ,£ 0 a Y • ■

a> CO oa

0 c L_ V

• t «t- u V Y tr

(uiyv|s>i) «>1 /fySU9}U| SS9J^S

Figure 8.19.2.3.22 8-1104

bJ >

=5 O

L±J Ü Z <

(/) if) LJ

o .. c o

*- -S o o

o- S

c o n o a. EC ö>3 I. C ■»__ ^ 0N2UU2ü.MpN ÜOOOOOMO- «-CO _ÎOOOOr-MOi- DMONOOT-OOI-

a 3 0° w c ..

II c c a o E E "0 o o o a. a. w (A

a it

m

o o- 5 ..

3£

* 2 ID q o

5 s .. £ a « * IK

E o

I0NMOOOOOO

.a cd

■9 c

0 D <

_o

- «

2 o o u CO OS

CG C*r*

D> c o _i

^ o * o 10 1_

O

v >

■+-» u

a CM M-

o 8

I—r a o CM

+ T FTI 1 1—V O

+

Ld

0

O

.o

(HIA!s>0 u>i Aisuaûi ss9J^s

Figure 8.19.2.3.23 8-1105

lO

Ld > a: Z> O

u o z <

(/) LÜ

o ..

If

9

CO co GO CD c ..

c c CD t> E E

*o "o CO V

CO Ü

Pen w (A

o

& fc ^ A © r— *- (j

o q a. in

CO I c

2 .. « g "8 § .. £ o o o •> u L. :* CK

c .o

C4 O

üo oo to i>. m»- »-00 OMOWOOT-OOT^

ijcoc*) oiododdd v a

— es es

£ <N' -2 fl cs o

a ®

T 1 r T 1 r a -l—*—r

.o CO

-3 c in.—.

(9 Ö <

.o «

„o

C a)

o o Ü

tu #>

u **- M- ÜJ

^ Ö

O

o o 8

a o o

(UI/JS>I) «>| A}isua}ii| ssaj;s

Figure 8.19.2.3.24 8-1106

LÜ >

o ÜJ o <

U) Lü

I. 10 d c

JO ,, £

™ o g .„

^ CJC£ a« u%

§ c c c v o o o E E E

« "5 "5 *S >; a. a. a.

c .o n o EC o»3 i_ c ■>_. i_ 0N2UU2L(flpN ÔOOCOI^lO«-—00 oh-moiooi-ao*- Mtociciöödööö

CO

■5 C

0 o

u

a

in gqi|

£ SON

o o

s u

o

o u c &

o

_o

CO

as TJ "<* V N

-2 a cd 0 o CJ

CO w 0) 0 &

©• CD CO

o o

I o o

.o «

c a)

o >

o OJ .o

o

.o « o

(H!A!s>0 "X *USUS1UI SS8J1S

Figure 8.19.2.3.25 8-1107

L±J >

o L±J O z < I— C/) if) Ixl

o .. n 5 c 5 CD *■>

Ü •

ao E c "I *I

IO

o u c

• c n 09 * 9 C • ■

(1 5 ■u

X H * c c «1 o E E o o o V Q. Q. tn <S>

u

i0- <S£

"5 ,"5

at .. m ö in g n |

o o * as

c .o ■f n o EC 0»3 k. C ©_._ k_ 0NSUU2IL(A|=N UOOOOI-0+*0 _OCMmOO*-COCM*- DKJWNOOT-OOT- ^(ooioiddddod v u

- es

o o

CO 'S ^

'S ö

O CJ

S a>

T—r i—i—i—i—r T—»r

.a <0

_o £1 in • MM*

H- «4-

™ 0 D <

o — • -M D> C o _l

_*

• o

m L_ o V >

-H» u

_q CJ M-;

LÜ

c - • —■

0 o>

_q JC O

.o d

o o CM

o a

(u[A!s>0 d>i *USU91UI SS8J}S

Figure 8.19.2.3.26 8-1108

LJJ >

O

Lü O Z < h- C£) Ul LJJ C£

c —' o .. c £

U « Q.O

Ig E

ö ü o

d n 0 c ..

c c E E "o "5 o o a. a. W (A

.a cd

c o

•» O EC'S |_ C ■)_._ i_

0N2UU2U.V)pN

_ONIOOO*-COCS»- DI0K)NOOi-OO»- ft «•«•••«••

|(ONNOOOOOO V

JC u

0 D

u ^ *• rj

o a. 00

XI

m o

o o u o

_o

_o ■ •

in

0> c 0)

cs CO 'S ^ JS N' -2 ö « o o ü

•43 S

9 ®

.o

Ü

#>

u a)

Ö

□ a a

0)

o

o IO s

~r o

(HiAls>i) "H ^!SU9*UI SS9J1S

Figure 8.19.2.3.27 8-1109

LxJ > on

o LU O Z <

00 if) LJ

■o a 3 X a

a c h- o

IO c o a. _ o T3 •' CO 5 § 0°. 25'.. ü c ^ £

m c c c w o « « ° E E E ö o o o Q. a O 0) >: a. a. a.

u

5£ 1- o s o Q-

C C o o

I. C3 a

o «

(UI/US>i) *>| A}ISUS}U| SS9J1S

Figure 8.19.2.3.28 8-1110

Ld > (Z Z) o Ld O

en CO LJ

(U|/US>j) M>1 A}ISUS}U| SS9J^S

Figure 8.19.2.3.29 8-1111

ÜJ > (Z

O

ÜJ O

< I— C/D (/) LU tz

o .. « 5

O 9

Ö u 8- S

o c IO — do n O a v 9 C ..

c c a o E E o "ö D V a. a.

en </>

je a

K5 jOlC •«-

o 3

o u

iu« u •>

n o fi EC 0>3 L. C o —,_ »- 0N2Uü2LMl-N ÜOOOOr-OttO _OCMIOOO*-«3CMT- on looi oo t-o Or ^«DcJoidddddd v x: o

_o

r- * 05

'S Ö

0 a

to GO 0> 3 © V V

.o 00

-3 c

_o

c 0)

o o Ü

> o a)

Da 1 ,B ,-

O S3

o o T 1 1 1 1 1 r

o a

Ü

.o

Figure 8.19.2.3.30 8-1112

■ IN

LU >

Z) o LÜ O

CO LJ

•a a 3 X a

a a. '■ m

û

o r* ■o • < O) 01 i_ • 4

.x o (0 IT) o *J 09 T—

E 5 01 c , B

o c J£ SZ

L U r ■o

s o l— 5 ■*■<

c a* u

c c c a o 1) E E E

ai u u o n a 03 u >, a. a. a. P en C/J (/)

u

5.S i- o

X «

§ o.

c c o o u u_

in I,. O f 8

in ^ •• oo "

u v ^ a:

(U|/US>|j b^ A}|SU9}U| SS9J}S

Figure 8.19.2.3.31 8-1113

LÜ >

Z) o ÜJ o

if) Ld

"O o 3 X a 2

2^1 o ■a " r*-

° § sS _ -M c •■

g c c c « o © u 0 E E E ö 'Ö 'Ö *o a. o o v S a a a

u

5JS

1- o

(UlyMS>|) «>1 A}ISU9}U| SS9J}S

Figure 8.19.2.3.32 8-1114

Ld > 01

o LU O

if) CO LÜ 01

-a a 3 X a 2

O 0> ■a i: o> m C .. . JS o g ifl

«OH? c o a

c c c go« E E E

Ö O ü Ü Q. O O 0) >; a. a. a.

5-S

i- O

o a- S •• c fc o o U L.

ie- °

•5°

en §

(ui/us>|) a>i A}isu9}U| ss9J}s

Figure 8.19.2.3.33 8-1115

LÜ > (Z

O

ÜJ O

<

tn Ld 01

I. - c -* o .. « 5 c 5 o 5

o <g Q.O

is E

e o

.o

O

a

II c c o o E E o "5 a u a. a.

co en

o - eö

?l ^ 5 CM

o

a. fj in

o o u o o u. ^ a:

c j> ■**

n o Ec»3 L. c o—._ »-

QN2UU21LV)PN

__0CMir300^-aJCMT- otorocMOOi-ooT- .jjcocNNdddddd

v JZ u

in •—.

<

* :5

■ •

C tu

o

& °* •5 ö es o

0 u

a)

.a CN

Ü

u o

c

-° E o

T 1 1 1 1 1 1 j 1 r*T o o

a o cs

o o

„a o

(yiA!s>0 ** *USU91UI SS9J}S

Figure 8.19.2.3.34 8-1116

LU >

O

LU Ü Z < I— tn v) Ld

I £ c —

1 ?

CO

0

Q O E E

c .2 n o a EC 0*3 i_ C ■>__

öoooo»-o**o w _ONIOOOT-(OCMT- OKJJOCMOO^-OOT-

ijcdcNoioddddd e u

CD

°- s P<0 V) C/>

09 •>

a

s ii « .S ca

Ü o

_o

- CO CO

'S Ö

as CB 3 V 0*00 *

T o

Ö

c 0)

■so o

>

.a u

o

8 (H1A!S>1) ** A|su9;u| ss8j;s

Figure 8.19.2.3.35 8-1117

Lü > 01

O

Lü O

< I— C£) (/) LU OL

B3f . O •« c Son

O * i»3

| c c c O O <D f> ° E E E 0 0*0*0 st Q. Q. a.

je o

S3g

o o-

i *s O

Son i*

o c

.o ■

c

•» o c"C 0>3 k. = ■>_._ k- {=N35003Eli_C/lI-N

_ONlOOOf<ONf ororocMOO^-oor- Miöctciöööäöä v a

"3 c in •—

0 D

.o « r_2 -c

c

■ •

- «

TJ "* V M -2 fl es 0 a 0

•IM

05 W & 0 0) C GO

♦

o D l_ O

a) >

o OJ

M-

ÜJ

c

-° 5 ^ Ö

o

.o ■

T r T *" T r o o

o o 1 r o o

.o « o

(U]/clS^) M>| /fySlÛj SS3J^S

Figure 8.19.2.3.36 8-1118

L±J >

Z> O

ÜJ O

< I— GO

C/) LU

T-E c — o .. c o CD <4->

»-5 u 0 |5 l| Ö o s. s

CO CD C ..

2C sz

*i I- 35

0 €> E E o o 0 « Q. Q. en tn

c o 0 o EC»3 l_ C e _ i_ 0N2UU2lL(ApN

_OCNIOOOT-COCN«- onnNoot-oor ^fdcNoidddddo 0

XL U

_o W •—

G O <

_o

JE - es

o o-

o CJ

Is 0 Q

a to o

ca g

§ .. s o O 0

U. X Q£

_o

cd 'S <^t

-5 ö es o

O a •w CP

2 • 0*02

o

O

#>

o o

0)

o

o o K>

"T o o CM

O O

(HlA!S>l) *y *HSU9}U| SS9J^S

Figure 8.19.2.3.37 8-1119

Ld >

Z> o LU O z < I-

(/) u 01

II

CLO

Ö o s. S

in . (0 c o —

n o to «- o c -.

u c c o « E E "5 o 0 « a. a.

u

.y

"5 -a

C--2 oft-

3£

O t> o 9 s

.. &

c j> *■»

t> o ft Ec o>3 i_ c ■»_ i_ „NI002U.WI-N üoooo»-o*to _ON«OOT-«NI- oraio<Noa*-ooT- Jütöciciöööööä

o

^ o

O u to s

OB CO § * V

o o to

Q O CM

I o o

„nui nc

.a

_o C in • ■BB

*—'

H- M-

■■ 0 D <

o «

u> c

- 0)

^ (>

« o K» II.

Ü

0) >

-H» u

_o a) C4 M--

LÜ

C

O O*

O c « o JZ o

.o o

(ujA!s>i) "* *M8U9lul SS9J*S

Figure 8.19.2.3.38 8-1120

LU > et:

O

Lü ü

Lü

o .. « s CD "^

ii

00

CM

CD

ii c c o ©

„EE S ÜÜÜ Q. CD CD O vaaa

c .2 » o EC "3 i_ C ■)_. 0N2CJ02U-M|= °OOOOONNN _ r*»«- T- to T- K) »o io Otti-^CMOOOO |lflNt-00000

_o „,E

0 o

_o

- eö es

2 o

0Q CO

S« S<8

c 0)

ü

ü 0) **-

M- Lü

C

.o CM

O

o 8

I o o CM

o o

(UJA!S>0 *X ^Hsuaûi SSBJ^S

Figure 8.19.2.3.39 8-1121

oa

I. CM —

LJ >

Z> Ü

LÜ O

<

(/)

01

c o

II a • |S l§ °- s

in CM ^ CM o «9 to

c c CD €) E E *0 *5 a o CL a. in c/>

a

o

§0. ■o p

eg

oa CO

o CJ

u si .. Ä a t> ic tr

o

0N20U2U-WF ÜOOOOONNN OfO«-«4-CMOOOO ijiri CM «^ddddd V x: u

- eö

2 o o CJ

S • #4

T 1 1 1 P1—r o o n

o o

T 1 1 1 1 a o

(ujA!s>0 W *HSUS1UI ssoj^s

.a CD

.o C in

**—' M- «4- 0 D <

o « -M D> C V _l

^ o • o

n K) k_ a CD >

-M u O tu (N H-T

LU

(Ü C7>

O C « o o

_o o

Figure 8.19.2.3.40 8-1122

LÜ >

o ÜJ O

< I— tn (/) Ld

O .. c go«"" i- 3 c ..

ao t- S | c c c o o e o

E E E a. a a o >: a. a. a. POT OT W

u

in n

x > o

c o u

o an

a

a. ^

u

o u c s «

c .o

n o Q. EC Ö»I| i_ c •%_ nN2UU2lL(flp Lo üOOOOr-0^ + _ in r^ «D CM «- to -*■ CM DIOIOIONOOOO ij in CN Voodoo

v u

.a CO

«,R

_o in

— es es

CO o

•W CD tn %

3«

%

o

T 1 1 1 «—i r o o CM

.a CN

o

u

Ü

#>

o M—

LxJ

c

0)

^ Ö

o

T-^l 1

(HiA!S>0 "X A!SU9Û| ssaj^s

Figure 8.19.2.3.41 8-1123

Ld > (Z

O

ÜJ Ü Z <

(/) L±J Cd

i-

O ..

"=1 CLO

li

en CM . o c io — ^ 00

IS c c o o E E O 0 D. Q. W W

JE

§0-

>§ ü a to o o o

til

.a CD

c .2 0) o

gN2UU2lL(fl|=N ÔOOOOOOOIO O* CMKJ O*- n- Or ÜC0CMCMOOOOOO

V

u

-3 c

o

-° r-

_o ■ ■

a

2 o Ö «P*

o ü 33 S » GO § •

.a CM

c

o D

Ü

#>

U

a a

0)

O

T r T 1 1 1 1 r ■sF*r .o ■ o o o to

a o CM

o o

(ui/us>|) «>i >fysua}U| SS8J;S

Figure 8.19.2.3.42 8-1124

m

L±J >

ID O

LU Ü Z <

C/) C/) LU

c o

»-5

CM in

c

o EC»3 k. C o _ i_ 0N2UUSLIApN UOOOOOOOOlfl _pom-*oiocsjtOT-

o ■ CM 1*5 Ö *- T- T- O *-

n o

u S U £ O « ao ii

E (D Ü °- 8

u

£ =

c c O €) E E o o O 0 a. a.

CO 10

je u « +J es 'S ■^*

» CM PQ c

CO 0

o •5 0)

K en 0) 0 ev

0> $

|(DOIMOOOOOO

V o

.a CD

O O

1 r o o CM

T r

.o C IO x—y

M- M- ® o <

.o ■ ■*->

u> c o _l

J*

.a • o K) i_

ü <L> >

-M u

q CÜ

CM M- LU

#C

CD CJ>

o c « o o

(HlA!s>i) M* îsus^| ss8J}s

Figure 8.19.2.3.43 8-1125

Ld >

o LU O

< I— (/)

(/) L±J 01

•a a

x a

CD

°- -j •a 11 .x O U 33

u

5 c CO u

CO ■c o c a E

o — d n o m ■*■ 8 « CD C •• -* :5

i- 5 c c o o E E

ö u u u 3. a a « v a o. &

u

i- o ■=

CO a o vt

•a c o

CJ

« o o

a

lO CD

I

§5

M i £ S

£ i5

c JO ■**

o

gNZUU ÔOOOOOOOlfl

Q, ■NIOOI-»-T-OT-

.HCOCN oidddddd

aa°n T 1 1 1 1 1 1 1 1 1 "T

.a to

o C in **~s

M- «+• 0 o <

o < .+-» u> c o _l

_* o « o

n K» i_

o

Ü >

-H» O

O CM M-

_o c o o

o o lO

o o CM

a a

(UI/US>l) M>| A}ISU8}U| SS8J}S

Figure 8.19.2.3.44 8-1126

Lü > 01 Z) O

Ld O

in ■o a r- 3

<«- r^ a

2

1 c •~

Pane

l L

-T

.076

In

.

a in TJ " C» o C •• ■ ê O 5 o> ü ss g *- E-S S ~ ü C^£

1 « O SS ir22 ^ o |- * £ c c c w o o o ° E E E ö ü ü ü Q. o a u S Q. o. a. Ptfl OT C/>

c>2 c/) Lü

O

)— O *m

OWN

o

o u u

ü c £

or

.a <D

C

« o Q.

0N2UU2li.(flpN üOOOOOOOOifl

ijcdNNdddddd v .c u

®

_o ■ •

.o

0>

u o o

>

u

£

c o o

aa n na,

T 1 1 1 I r o o io

o o o o

(u]A!S>0 ** ^!sua;u| SSGJ^S

Figure 8.19.2.3.45 8-1127

Ld > 01

O

Ld O

< I—

{/) Ld

in h* 3 <«- r^ X

D

1 «

C 1 M~ "5 c o a. J. 0.

0761

6

in.

■a • « o o c O a ■<*■

O 4-i 3 N

25

i c 9

hick

fid

th

5 o t- # c o Ü

c c c a a o E E E

o o u o a, e a a £ Q.

(/I a. a.

o JC

o

x e aa >5^ « §«g g ? § .. £ o o u o ü u_ M a:

c

a o a. EC 0>3

uu: iU.(fl|=N ôooooooom _Q 010*010 CM «D«~ o * CM n o T-1- ^ o T^ .jjdcMCMdddddd t> x: o

T r T—i—i—r

Q a

an- il* I

.O d

o c in • BI

V»-«'

H- M- 0

O <

o « <*• -f-»

a» c a>

_J

_* o o « n n £_ o U >

-4-» o

o CM «4—

Ld

o

.a o

o o o o CM

o a

(u>A!s>0 U>i *USUS1UI SS9J^S

Figure 8.19.2.3.46

8-1128

IT)

Ld > Cd

o Lü O

in C/) LxJ

•a a 3 X a

t

I JE

a

0. Jj ■a o a 2 o L 3 c 9 O

00

O a c

S3 S3 CM 3 c 0

o o E

e o a- 8

a a c ..

11 I- * c c a o E E o o o o Q. Q.

t/1 (fl

O Z

h- O •= O

i .." P ■o E © c c .« «J- o o o a> O li_ * tK

c .o n o a. 0N2UU2k.V)pN UOOOOOOOOIO -QOiaâioMOr-

£ to CM cModdddd o

XZ O

T 1 r T 1 r T r*—r

.o

o c in • —

v—' M- •*- 0 o <

o « SZ

u> c a) _i

.*

o « o

n L. o a) >

-♦-» u o (D CM M-

LU

O

o o o o CM

a o

c o

(uiAis>i) a>i A!SU9*UI SSSJ1S

Figure 8.19.2.3.47 8-1129

_L

L±J >

O

LJJ O

V) Ld a:

o ..

° -a

u • 0.0

«i S- s

(O c 0» — *: <o O 0) • • • a i-

9 C ••

II c c o o E E Ü o a v a. a.

(A (/)

2C

gjO

^5 X « IO _ Ö CO

S3 O ■o c o o

o

u. e IO to

I

CO

g E

2 2

£ i5

.a

c JO

n o

gN2UU2lLtf)pN OoOOOOOOOlO _QOin"*OIOCM«DT- O * Ol PJ 01-»-*-o »- i£cdcsc<idddddd

o JC u

-3 c

0 D <

_o

c 0)

Ü

>

.o « CM

Ü V

o

■° 5 ^ Ö

o

T r T 1 1 1 1 1 1 r .a « o

o o n

a o

o o

(uiy^js>i) «>i A;isu8;u| ss9J}S

Figure 8.19.2.3.48 8-1130

m

L±J > 01

O LU O z: < i— (/)

Lü

•a o 3 X a

2E

o n m c •• ■ £ o a n US g« Eo 2 O c .x .c

I JS & 3 iL T: X: =: «Oh?

.o

Sec

° E E v

E e o u "o n O Q •) £ a. a. a.

U

= 1 fc'V

>sq s .. r: c E .. o o o O Ü. Ü

• iO (D

I IT

•* as

§£ «S > v c

OH Id

c .2 « o EC 0>3 i_ C ©__ k. QN2UU2LUpN UoOOOOOOOifl D*CMIOO»-*-T-OT- ij to ricjdddddd o

JC u a? o

< _o

.o

c 9)

o

u

o

'no T r

o o a o C4

a o

.o « o

(u"A!s>0 *>1 îsugûj ssGJ^s

Figure 8.19.2.3.49 8-1131

Lü >

O

Lü O Z < I— in V) Lü

in r>- <<*- i^

c •■■

in .

\ .403

5

In

c o <«- u "5 c o 1-

• « c o> .o

5 naaa

:

11

ü a

c o

■c ao H # E o u

c C C a a « E E E

o o o u n (D O V

? Q. (/l

a. Q.

u

gw

3:° «s o o- «J

55 E"~ c t .. o o o o u. *:

0 in co

I • ■

8§

2 i 2 2 © c tZ ÜJ

c o s » o EC 0»3 k. C ©_._ i_ 0N2UU2lIlfl|=N Uooooooooio _Q OIO -*0 «CM »*- ö + NKJOr-T-r-OT-

V JZ. u

V T—r

.a

_o c in • ^B*

v-/

M- H- 0

O <

o — i

-I-» 0> c ü _l

_*

« n L_ o u >

-H» o _q

<N H- Lü

c - t ^~

0) 0>

_o « c ö

o

.o « a

o o ro

O O CM

a o

(UI/US>J) ö>| Ä}lSU8}U| SS8J;S

Figure 8.19.2.3.50 8-1132

lO

Lü > 01

O

LU Ü

in Ld 01

m TS

c o « 5 c 0

u • |5 l| Ö u a- S

o o> • « * a «- a «- o c ..

2C SZ n c c a o E E

"5 *5 o v a. a. (A (A

a

ED, -M _ ^ ** cs > O O

£ in c c .. o o o

lO CO

I

IK

S3

g E

© c tK LJ

C .O ■♦* n o EC 0»3 k. C g>_,_ v. QN2UU2LUpN üOOOOOOOOlfl _g on *o IOCM to r- •£<rf tNoi do do do o o

V ô

.o to

o £1 m • ■■

v.^

M- M- 0 O <

o • ■+-» u> c o _I

_* o o K> l_ o

<L> >

-M u

O (N M-

Ld

tc

(U U*

O c « D

Ü

o o lO

a o CM

o o

(ui/us>|) vy /fysuû| ss8J}S

Figure 8.19.2.3.51

8-1133

£

ÜJ > et:

o L±J O

V) in UJ

o .. c o 9 ■*■»

|S

o — *■: in O 00 • • * a «- as »- o c ••

2C SZ

|5 C C O I) E E

"ü "ü a t> a. a.

C/l (A

m <D

o

c-5

& •• p "° E *~ o c c •• >•- o o u o o ii. * o;

.o 03

C

•» O EC 0»3 k. C g> _ »_ 0N2ü02ü.Wl-N °OOOOOOOOlO _P OOT "*0 «CM »T- o* oiro o*-T-T-o*- ij<dr4oidddddd o s: u

in •—^

0 Ö

C

o

es •d

o o

-5 ö « o o u

ao as 3 ®

■to

O

#> '■+■» o

.a ■ CM

D a

*

\ O

t

T—r o o

.o o

(HA!s>i) M>» *1!SU81UI SS9J1S

Figure 8.19.2.3.52 8-1134

Ld > a: o Ld O

< h- {/) CO LJ DC

a 3 X a

in to E H

1.5=

a ro

c a. — ö ■a " o c ••

S5 2 -

30hJ £ c c c w o o v ° E E E a "5 *ü "5 5s a. a. a.

c .0 ^* •» o Q. EC 0>3 i_ C «_ i_ 0N2UUZLtf)pN üOOOOOOOOlfl _QOin-*O«0(Nt0T- D*WI*JOT-»-I-OT-

o JC u

in to

C C •• M- o o u •>

T 1 r T 1 r 1—"1 n 1

.0 c n

H- M- 0

O <

.0 • -*-» u> c a; _i

_* q u K> i_

O u >

-*-> 0

0 0 <N M-T

ÜJ

tc

0) D>

O C • O JC 0

o o 10

.0 o

o CM

(HiA!s>0 ** *USU91UI SSSJ1S

Figure 8.19.2.3.53

8-1135

Ld >

O

Ld O

CO C/) Ld

o to

_o C in **s

M- M-

■■ 0 D <

n «

D> c 0

_J

^ ()

« o K) i_ O

<D >

-I-' U

_o (D CM **-

ÜJ

O

o a

O

(ui/us>j) w>| /fysu9}U| ssgj^s

Figure 8.19.2.3.54

8-1136

LU >

O

Lü O

GO C/) Lü 01

■a a 3 X a 2

00 c

o — o CD H CO ^~ o c -.

II

° I ■a "

O S3 ES

.3 o 5 g CD 'S "Ü "Ö o. «a o « jt O. Q. Q.

CO

w

CO «)

E E

o

<o 2

X CO \ « o en 2 •• S "a E c fc .. o o U 0)

u c £

0 O <

.a m

»o v. O

>

.a « O

M— «4- LÜ

C

CD

-° 5 O

V o o

T 1 1 1 1 1 r o o CM

T 1 r

(UI/\JS>|) •■>§ A}|SU9}U| SSGJ^S

Figure 8.19.2.3.55 8-1137

Ld > a: Z) O

LU O Z <

c/2

a:

_o

C in • —

v-'

M- M- 0

O <

n — • JO

D> c o

_!

_* ()

« n rO i_ o v >

-H» Ü

_q C4 M—

UJ

C — pBüa

Ü O*

« o _c O

o o

(UIÎS>|) M>j /fySU9}U| SS9J}S

Figure 8.19.2.3.56 8-1138

£ m

ÜJ >

ID o ÜJ o < I—

Ld

a 3 X a

I

o

■a ••

o 2 u 1 c co o

5 c eg •c o c ffi E

00 . CO c

O CM o 09 .

co -x £ I—

CO

p£ c c a o E E

ö u u u Q. CD CD « >; a. a. a.

o IE

22 h- o

X CD

S ^"* o o a v o u. ^ Q:

T 1 r T 1 1 1 1 1 " I

.o C in • ■■■>

H- M- 0

O <

.o

u> c OJ

_J

_* o • o K) i_

ü OJ >

-M U

a <N M-:

ÜJ

C

OJ u>

O c • o o

o o o

(HA!s>0 ** *USU81UI SS8J1S

Figure 8.19.2.3.57 8-1139

ÜJ >

=> O

Lü O

ÜJ 01

(u>A!S>0 b>i AlSU9lul ssajjs

Figure 8.19.2.3.58 8-1140

■a a 3 X O

Ld > a: o LÜ O z <

in Ld or

o c o a. ■a a Ü 2 a

Ji *T -«- o o

o nN

S s..

OH* c c c O 0 V E E E

a *G "o "Ü o. o a u >; a. Q. a.

CD

5

CJ

c

fco' g

<D

C C .. n- o o u 0> U U. SC D£

T r ■T—r o o

a o

T 1 1 1 1 r a o

O O <

C L O

O

a) >

.o CN

O <D

ÜJ

— t"

^ a JZ ü

(UIyVIS>l) ö>| /fysUÛI SS8J^S

Figure 8.19.2.3.59 8-1141

L±J >

ZD O

UJ O z <

CO in Ld 01

m ■o a

r^ 3 -st- i^ X a

1 • c *—

o c »T

a e oo —

0_ Ji o o "O •t o 0

O «CM O •4-1 a ^ 9 2.2 ü c JC X

I 9 •c -1 -S o 1- #

c 9 CJ

c c c o 0 0 E E E

O u u o Q. o o V £ a. a. a.

o

£d g x 0

?E"7 O O O Ö O U_ 2* DC

T 1 1 1 r Eai 1 1 r^

.a CO

• c in *»->»

M- M-

~ 0 D <

o — i

-*-» D> C o __l

_* o n ro i_ o <D > -H» Ü

_o o «4- CM M-

ÜJ

en

a

.o o

o o o o CM

o o

(U|/US>0 M>| A}ISU9}U| SS9J^S

Figure 8.19.2.3.60 8-1142

X CO

ID ~a a 3 X D

LU >

O

UJ o < I—

in

a:

_o — c e — c o a. ■a o u S o

2

To c

t: o

Hi: 1-1

u c c c CO 0 V E E E

ö "0 *ü "u 0,0 0 0} >; a. Q. n. - w co en

o

§2 I- o

X a

o o u o

J,S

0 D

_o

C

u

.o CN

O tu

u *♦- M— UJ

o

■° 5 sz o

T 1 r T 1 r T 1—T o o o

CM

(UlyVIS^) U>i /fySU9}U| SS9J^S

Figure 8.19.2.3.61 8-1143

■o o 3 X a 2

> 01

o u o z < I— SD. V) Ld 01

. m o o

■a *' o

25'..

«Oh? c u

c c c o O « EEE

aJ "5 *5 'S >; Q. n. Q. - w (/i o

£d g o a

5 « S3 5

0) u c

=ä p — § c c .. «S o o o © o L_ * a:

(UI/US>|) «>i /fySU9}U| SS9J}S

Figure 8.19.2.3.62 8-1144

i.S c —' o .. « s

5

CM . * c « —

: <o o o» • • ■ «B «- CO «- 0

Ld > ct:

o Lü CJ

<

VI in Ld

4< C^£ « n u ^ o • ao E

II a

c c c a o o E E E

o 5 n o EC 0»3 l_ C ■»_,_ i_

üOOOOOOOOifl __OOIO*OIOOHDT- p* CMIO Or—r-y Or £co*Nc<idddddd o x: ü

u o a « a. a.

a

8« 1^ ^ 5 ■+

J°-3 £

o o u o u u. * a:

.a

in.—.

0 D

<3 _o

\-0 ■ «

CO ■**

CO

,3 si A o

O u •^ 3

COD

D

\

D D

S

C 0)

o E o

o

h c

O

.o

o o IO

.o « o o CM

(UiA!S>0 U>1 ÎSU9Û| ss9j;s

Figure 8.19.2.3.63 8-1145

Lü > en

ü

Lü ü

<

V) in Lü 01

(ui/us>0 «>i A}!sua}U| ssaj}S

Figure 8.19.2.3.64 8-1146

Lü >

ID o Lü O

< I— (/)

V) Lü 01

\n ■o o

i^ 3 <«- r^ X

D

1 c p«

Pane

l L

-T

0.20

8 n.

TJ " ■—

.* o •• __B_ a ^ O *! 3 « 55 ü c ■* £ o a •!-£ c^ 5 o H #

*i C C a €> E E

ö u Ü o Q. O O V £ n. Q. a. Plfl W C/>

u

\i I- O «

£ ^ CM

m o

o O

V u c

«

c o

«MW

n o Q.

ECj3 k. C o_ i_ 0N2UU2U.UpN üOOOOOOOOlfl _QOlO"«i-OmCMtDT-

£<o CM cModdddd e ü

QnQf

T—i—i—r

„a * CO

o • c in v-x

M- M- © o

<

o -M ö> c o _l

-*

o « o

tn i_ ü 03 >

-*-> O

a 03 CM M-

Ixl

tu

ü

O O

a o CM

a o

(UI/JS>j) «>j A}JSU9}U| SS9J}S

Figure 8.19.2.3.65 8-1147

Lü >

Z> O

ÜJ O

< I— CO (/) ÜJ 01

(Uly\IS>|) M>1 Ä}!SU8}U| SS9J}S

Figure 8.19.2.3.66 8-1148

■o D

3 X o

I

0. "j

Ld >

O

Lü O

<

C/D C/) Lü

T3

u E o

in c CM — d CM

o o

CO o c .¥ -E H

3 c a ü

3= a **

c 9

o c o E

n c c 0 V E E O V Q. Q.

C71 W

.a * CO

je u

"« 5

X * Ö

>° « S .. 5 p "2 £ ^ c c •• *- o o a o O li_ * £C

_o to

^ T 1 r T 1 r T r

D <

.o «

.o

c o

o o O o

0> V» o o M— M— Lü

Ü

O

o o o CM

(HiA!s>0 d>i Aisus;u| ssGJ^s

Figure 8.19.2.3.67 8-1149

ÜJ > 01 Z) O

Lü O Z <

in Lü

in o

x a

o ,_

o w ■a •• T- <D c •• O

■* o s 3

iL T: 2 1 ©OH* c © c c c

O 0 © E E E

Q. CD O © >T O. O. O. h1« VI </>

(uiyvis>i) M>| Ä}|SU9}U| ssaj}s

Figure 8.19.2.3.68 8-1150

•

-

n 1 | i , 1 <o

1 n -a a 1 5 - - 1 s X a

2 «* ^"""»

■ c — -9 c

Pan

el

L-T

.2

52

1 In

.

O 00 ■■ © o 5 a os O ÜB «W < E5 2 .. Q

Lü > it

er-

C

Orie

n Th

ick

Wid

th

C£ 5 c c c ÜEEE

ü ö *5 "ü *ö Q. «B O O >; O. D. Q. K- (/) </l (/} -O ri Lü

ü O

• < OJ >

• ■MB

■+-» o ^""«» -» <D

Lü IE 4^

-9 H-

C£ c in .- — t^M

<o £ <- £ «1 o <D H O Q U>

O C

ndlti

on/H

rm

: Pl

ate

: NA

fe

renc

e:

1

o O o o » ULL^Q:

*nn o 1 1 1 | 1 1 1 | 1 1 1 ° • c > o o c > c > o o r

(ü!A!s>0 *X >CHSU9;U| SS9J;S

•

Figure 8.19.2.3.69

8-1151

_L

in "O □ 3 X a

e

~a " * 5 ■* o U 33 ES Ü C

to c CM — d co «°!

L±J >

o ÜJ o < I- co c/) ÜJ 01

i 2 c 9 U

9 •c o c 9 E

o

c c

E E Q. o o u >: o. o. Q. Pen w </>

je u

I- o

^ ■*■■

o o

u u c £

.. £ c «

< z

(ui/us>|) «>i A}isu9}U| ssaj^s

Figure 8.19.2.3.70 8-1152

Lü > OH

O

LU Ü Z <

CO

ÜJ

a J3

a

I "5

o. Jj ■a a 9 5 -* o U 33 ES ■ 9

o 5

Q Ü

n c io — w .- d »-

o • • i a M a «- o c .. .* x:

II c c (D €) E E

"5 o a u a. a.

u

i- o

x • •?r •+■■ o

C C •• M- O O U 0)

.a <D

o

_o

c

o

>

u

oi 3=

0) en

O

T 1 r T 1 r T 1 r o o

a o CM

a o

.a o

(HA!S>0 ** AlSUOÛI SS9J}S

Figure 8.19.2.3.71

8-1153

Lü > OH

ü

Lü O

SU in Lü 01

(U|/US>|) M>i A}ISU9}U| SS8J^S

Figure 8.19.2.3.72 8-1154

LJ >

Z> O

LU O

in if) Ld

■a o 3 X a

o c -a '• — <n c .. ^ O m <0

E5 S ..

£ c c c

.o to

Ü ffl ffl Ü E E E

CD 'o 'O *0 Q. ffl O U >; a. a. Q. KOI V) c/>

t- o

CM

X o

"° £ c c o o

to ir O

> Q .1. C3 a * «

u c 0)

" k_ 4) • • «•-

U V *: er

U<3 C

Q O <

C

ü

>

.a O <D

M- M- LxJ

c

a

'Hi

T i i | | | i | | r o o

o a a o

(UI/US>|) «>j A}ISU9}U| SS9J^S

Figure 8.19.2.3.73 8-1155

ÜJ > 01 Z) O

LJJ O z < I- SDL v) LJ 01

c £ • -a

o • 0.0

H Ö u S- 5

5-s d oo o «9 S "♦ 9

c c o © E E u *5 O 0 n. a.

W (A

je

m «3 Elf •• J5 x • *

a 0- o

CO o

c c •• «•- o o o • CO 1L * K

.a CO

c o % o EC 0*3 k. C D_ I»- oN2UU2lL(0pN ÔOOOOOOOlO _p oio -«-a «CM »T- 0*NK)Ot-f-r;qr; ijjoescsdddddd

o x: u

■9 c

o

_o

„a <N

C

u o o

#>

o tu

T—i—| 1—i—i—I r

O

.o

o o o o CM

O a

(UlyVIS>i) «>i /fySU8}U| ss9j;s

Figure 8.19.2.3.74 8-1156

7?

LJ >

=> O

L±J Ü

<

(/)

V) LJ 01

c — o ..

•-5 o •

If m o S. 2 Pen en en

o o> o> • • .

«a «- n *- «D c -. je JC

= 1 c c O I) E E *5 o o »

u

5 !Zic

£ ^ i o •— "- a Q

gEio «

1 E*~ I c c •■ j- o o o •» O U. * CK

' c o Ä t» o EC ö»3 l_ C ©_._ i_ 0N2UU2U.(flpN °OOOOOOOOiO -poin+omNOr-

•jjtotNoidddddd

o U

.o (0

«

© IN

'S Ö es o

O a

§ •

^

^

D D

\ V. T 1 r T 1 r T T---T

.o c in Cx M- «4- o D <

.o «-' -M

u* c <ü

__l

_* .o • o

n K) L_ o

CD >

-M U

O <D <N M-:

LxJ

C

CD U>

O C • o

o

o o

.O ■ o

o CN

(HlA!s>i) d» ^!suslul SSSJ1S

Figure 8.19.2.3.75 8-1157

Ld > (Z Z) o UJ o

Ld

.o

_o c in • •—■

v—'

M- «+• ™ ©

Ö

< n *

-M en c

-

J* ()

■ n m L_ o u >

-M o

_o «4- CM M-

LÜ

C — • ^—

(D O*

_o • C o o

T—i—\—r o o CM

(UI/US>|) W>i A}|SU9}U| SS9J}S

Figure 8.19.2.3.76 8-1158


8-1159

F ■\ 7475 h- Condition/Ht: T6 Form: Sheet Specimen Type: CCP (max load specified) Orientation: L—T Stress Ratio: 0.1 Environment: LAB AIR; RT

AK (MPaVin) 1 4 10 40 100

H 1 I I I >|l|—

(1 of 2)

= I ' I 'I'l'l I — Frequency: 5. Hz

10

-3 10

o _

frl 0"+

10 ■o ~

•o 10

10

10 ' i iiHI ' i i i in

— 10

10

— 10"2£

Ü

— 10 E

-J10 >

10

-6 10

4 10 40 100

AK (KsiVin)


12.2 13.2 20.1 45.6

124. 209.

RMS % Error

3.56


i 1 1 1—■

.5 .8 1.25 0. 2.

Yield Strength: 71 ksi Ult. Strength: Specimen Thk: 0.06 in. Specimen Width: 3.999 Ref: RI008

— 4 in.

1 AK (MPaVin)

4 10 40 100 i I i IM'I ni

(2 of 2)

- I ' I 'IT — Frequency: 10. Hz

4 10 40 100

AK (KsiVin)


10. 13. 16. 17.10 (max)

0.469 0.923 1.89 3.27 4.74

10.9 20.1 28.7

RMS % Error

2.85


i 1 1 1 1—

0. .5 .8 1.25 2.

Figure 8.19.3.1.1

8-1160

7475 h Condition/Ht: T6 Form: Sheet Specimen Type: CCP (max load specified) Orientation: L—T Stress Ratio: 0.3 Environment: LAB AIR; RT

F Yield Strength: 71 ksi Ult. Strength: Specimen Thk: 0.06 in. Specimen Width: 3.999 - 4.002 in Ref: RI008


4 10 40 100

10

10

o 6^1 o-4

10 T3

"O _e I— 10

10

10

- I ' I 'I'l'l I ' I 'ITI a


— —

*"~ —

— —

— —

— —

" I , I,I,I, I , I,I,I,

—

10

io"2£ o \

-3 | 10 E

10

— 10

— 10

a

4 10 40 100

AK (KsiVin)

1 AK (MPaVin)

4 10 40 100

(2 of 2)

I- I ' I 'I'l'l 1 ' I 'I'l'l — Frequency: 30. Hz

10

-3 10

u bîo-4

10

10

10

10

s ~8~

i i 1111

10

10

-S2 io"2^

o

U,.-I

— 10 o x>

— 10

10

4 10 40 100

AK (KsiVin)


10. 13. 16. 20. 20.54 (max)

4.10 4.11 5.21 6.47 7.86 9.35

16.5 35.1 77.1 89.6

RMS % Error

2.74


i 1 1 1 1—

0. .5 .8 1.25 2.

RMS % Error


.5 .8 1.25

Figure 8.19.3.1.2 8-1161

F ■\ 7475 I Condition/Ht: T6 Form: Sheet Specimen Type: CCP (max load specified) Orientation: L—T Stress Ratio: 0.5 Environment: LAB AIR; RT

10

-3 10

Ü

frlCf4

10 X! —

10

10

10

AK (MPaVin) 4 10 40 100

-| 1 I I I INI

(1 of 3)

I ' I 'I'l'l 1 Frequency: 5. Hz

i I i I Hi i i i 11 n

— 10

10

10

-2Ö

o

—o — — 10 E

-=Jio >

— 10

— 10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (1Cr6in/cycle) 4.41 (min) 5. 6. 6.57 (max)

1.05 2.14 3.50 4.56

RMS % Error

3.44


2. i—

0. .5 .8 1.25

Yield Strength: 71 ksi Ult. Strength: Specimen Thk: 0.06 - 0.061 in. Specimen Width: 3.999 - 4 in. Ref: RI008

1

10

10

U _

U 10

10

10

10

10

AK (MPaVin) 4 10 40 100

"I 1 I I I MM—

(2 of 3)

i ' i 'i'i'i r - Frequency: 10. Hz

Mill Mill

10

10

io"2£ o

^J10"3E

10 o X!

-5 10

10

4 10 40 100

AK (KsiVin)


10. 13. 15.18 (max)

4.07 4.85 6.53 8.30

10.2 12.4 26.6 52.2

RMS % Error

3.23


0. .5 .8 1.25

Figure 8.19.3.1.3 8-1162

Condition/Ht: T6 Form: Sheet Specimen Type: CCP (max load specified) Orientation: L—T Stress Ratio: 0.5 Environment: LAB AIR; RT

-I 7475 h F

Yield Strength: 71 ksi Ult. Strength: Specimen Thk: 0.06 - 0.061 in. Specimen Width: 3.999 - 4 in. Ref: RI008

AK (MPaVin) 4 10 40 100

10

10

o o 10 \ c _

2 10 -o tz

10

10

.-6

10 .-8


— —

— —

— —

— —

— —

" I . I.I.I. I ■ I,I,I, —

(3 of 3)

10

— 10

10"2 u

u

-= 10"° E

10

10

T3

O

AK (MPaVin) 1 4 10 40 100

— 10

4 10 40 100 AK (KsiVin)

10

10

O

6^10-4

c _

2 10 "a t

"o - — 10

10

10

= I ' I TIMI ' I Tl'l3

— 10

<D 2 -7T

10 U >> Ü \

10~ ■|

-21

m~ ̂ U

T?

-5 — 10

— 10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10_6in/cycle) AK (KsiVin) da/dN (10~6in/cycle)

RMS % Error


0. .5 .8 1.25


0. -1 1 1—

.5 .8 1.25


R i1 7475 h Condition/Ht: T61 Form: 0.11 in. Sheet Specimen Type: CCP (max load specified) Orientation: L—T Frequency: 2 Hz Environment: H.H.A.; RT

1

10

10

_5> o £l 0"+

c _

10 "D —

"O _K — 10

10

AK (MPaVin) 4 10 40 100

1—i I i I MM—

(1 of 1)

- i M 'i'i'i r — Stress Ratio: 0.05

i l i I Hi i I i 11 li

10

— 10

-jio"2 ° Ü

-Jio E

-Jio > T3

10

10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (1CT6in/cycle) 37.09 (min) 40. 50. 60. 70. 79.11 (max)

157. 242. 962.

2377. 6621.

23897.

RMS % Error

17.50


i 1 1 1 1

0. .5 .8 1.25 2.


AK (MPaVin) 4 10 40 100

10

10

o G^10-4

c _

-Z. 10

o

10

10

10

- I ' I 'I'I'I 1 ' I 'I'I'I 3

10

u

— 10 E

- _^-o 10

10

o ■o

— 10

4 10 40 100

AK (KsiVin)


RMS % Error


i 1 1 r—

0. .5 .8 1.25

Figure 8.19.3.1.4 8-1164

Condition/Ht: T61 Form: 0.11 in. Sheet Specimen Type: CCP (max load specified) Orientation: L—T Frequency: 2 Hz Environment: H.H.A.; RT

-\ 7475 h R


AK (MPaVin) 4 10 40 100

(1 of 1)

-2 10

10

_OJ |— o £i o-+

\ c _

10 -a

10

10

10


— —

—

: f —

— —

— —

~ 1 , 1,1,1, 1 , 1,1,1, —

— 10

10'£ o \

-3 | 10 E

-Jl0 \

AK (MPaVin) 4 10 40 100

-2

— 10

— 10

4 10 40 100 AK (KsiVin)

10

10

U

^10"4

c _

2 10

"o _R I— 10

10

10

_ | . | . r,.| | . | > | > |>| -L

10

10"2 o

io"JE

Jio \

— 10

— 10

4 10 40 100 AK (KsiVin)


29.6 39.6 57.0 83.3

104.

RMS % Error

2.78


i—

RMS 58 Error

0. —i 1 1—

.5 .8 1.25


.5 .8 1.25

Figure 8.19.3.1.5 8-1165

-\ 7475 I : Condition/Ht: T61 Form: 0.11 in. Sheet Specimen Type: CCP (max load specified) Orientation: L—T Stress Ratio: 0.05 Frequency: 2 Hz

Yield Strength: 68.6 - 75.3 ksi Ult. Strength: 74.5 - 80.1 ksi Specimen Thk: 0.112 - 0.113 in. Specimen Width: 36 in. Ref: 86212

10

10

ü

u 10

-o 10

,-s

10

10

10

AK (MPaVin) 4 10 40 100

i I i I 'HI 1—i I i I NU—

(1 of 2)


' i ' 11 ii i I M i li

— 10

10

-1

AK (MPaVin) 4 10 40 100

(2 of 2)

10 £

10

10

10

TJ

O

4 10 40 100 AK (KsiVin)

10

10

u o 10

10

10

10

10

- I ' I 'I'l'l I ' I 'I'l'l a

— Environment: 3.5s NACL; R.T. — — ~

— - —■

m —

— f —

eF

— - — — — — — - — — — — — - — — — —

- I , I,I,I, I , LI,I, -

10

io"2 u

O

_ 10"J E

- _*T3 10

— 10

o

10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 12.56 (min) 17.8 13. 19.4 16. 29.5 20. 42.3 25. 66.4 30. 116. 35. 199. 39.58 (max) 305.

14.22 (min) 68.2 16. 91.8 20. 159. 25. 264. 30. 391. 33.00 (max) 441.

RMS % Error

3.35


1.19

a i 1 1 1—

0. .5 .8 1.25 -1-'

2.


0. .5 .8 1.25

Figure 8.19.3.1.6 8-1166


8-1167

■\ 7475 h- Condition/Ht: T61 Form: 0.13 in. Sheet Specimen Type: CCP (max load specified) Orientation: L-T Stress Ratio: 0.33 Frequency: 13.3 Hz

AK (MPaVin) 1 4-10 40 100

(1 of 3)

I ' I 'I'l'l Environment: Dry Air; R.T. 10

— 10

2 — 10" u

o

,0-1

10

10

10

,T3

a X

4 10 40 100 AK (KsiVin)


10. 13. 16. 18.93 (max)

2.13 3.30 5.31 7.61

10.2 20.2 27.2 48.4

RMS % Error

3.21


0. .5 .8 1.25 2.


AK (MPaVin) 4 10 40 100

-2 10

10

_Q3 —

U

O 10

z: 10 XI

10

10

10


— —

— —

~~ —

— —

_ —

" 1 , 1,1,1, 1 , 1,1,1, —

(2 of 3)

10

— 10

jo

o

— 10 E

Jio > xi

— 10

— 10

4 10 40 100

AK (KsiVin)


10. 13. 16. 18.76 (max)

7.10 10.2 15.3 21.3 28.7 67.3

112. 183.

RMS % Error

2.66


r— 1 r— 1 1 .5 .8 1.25 2. 0.

Figure 8.19.3.1.7 8-1168

Condition/Ht: T61 Form: 0.13 in. Sheet Specimen Type: CCP (max load specified) Orientation: L-T Stress Ratio: 0.33 Frequency: 13.3 Hz

7475 r


E

10 -2

-3 10

O

^10"+

10

"o , — 10

10

10

AK (MPaVin) 4 10 40 100

I ' I 'I'l'l—I ' I 'I'l'l — Environment: Salt Fog; R.T. — 10

(3 of 3)

' i i i in

— 10

03

io-2 u

o

,o-i

10

10

10

D XI

AK (MPaVin) 4 10 40 100

10

10

03 —

U

^10"4

XI 10

4 10 40 100

AK (KsiVin)

10

10

10 .-6

= I ' I 'I'l'lI ' I 'I'l'l= 10

— 10

03 2 TZ

10 C) \

10~ ■1 z

m" ̂ u X

— 10

— 10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 6.18 (min) 7. 8. 9.

10. 13. 16. 18.95 (max)

9.09 15.1 23.7 33.3 43.8 85.2

144. 185.

RMS % Error

1.71


RMS % Error

0. .5 .8 1.25


0. .5 .8 1.25


R I 7475 I — Condition/Ht: T61 Form: 0.11 in. Sheet Specimen Type: CCP (max load specified) Orientation: T-L Frequency: 2 Hz Environment: 3.5ss NACL; RT

AK (MPaVin) 4 10 40 100

(1 of 1)


10

10

JE o

6^10-4

10

10

10

10

i I i I MM

' i i i in t I i I in

— 10

— 10

— -jio~2 -°

Ü

-3| — 10 E

10

10

o

— 10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (l0-6in/cycle) 12.45 (min) 13. 16. 20. 25. 30. 32.47 (max)

61.3 68.7

114. 191. 286. 404. 435.

RMS % Error

1.90


.5 .8 1.25 2. r- 0.


pr—|—i i i |i|i

10

10 -3

_0) — o _

6-10-4

_c _

-5 10

T3 ~

-o _K — 10

10

10

AK (MPaVin) 4 10 40 100

"I—I I I I III!—

I I I I III ' I I llll u

— 10

10

10 E

-Jio > T3

10

10

4 10 40 100

AK (KsiVin)


RMS % Error


0. —i 1 r—

.5 .8 1.25

Figure 8.19.3.1.8

8-1170


8-1171

-1 7475 I Condition/Ht: T61 Form: 0.13 in. Sheet Specimen Type: CCP (max load specified) Orientation: T—L Stress Ratio: 0.33 Frequency: 13.3 Hz


AK (MPaVin) 4 10 40 100

(1 of 3)

10

-3 10

JE —

o frl 0"+

c _

10

10

10

10

- I i I <|TI I ' I Tl'l a

- Environment: Dry Air; R.T. —

— —

— —

— —

— —

— —

" I , I,I,I, I , I,I,I, —

— 10

_0J

io"2^ u \

-»I 10 E

-]io >

(2 of 3)

10

10

o

o^10-4

10

10

4 10 40 100

AK (KsiVin)


10. 13. 16. 20. 23.38 (max)

3.08 3.76 5.74 8.31

11.5 23.8 41.1 89.7

201.

RMS % Error

7.28


0. .5 .8 1.25 2.

-a 10

10

10

10

AK (MPaVin) 4 10 40 100

I ' I M'l'l 1 ' I M'l'l -Environment: H.H.A.; R.T. -d 10

— 10

IV 2 T:

10 o \

10" ■I v-' 2

m" ̂ ü

X>

10

-6 10

4 10 40 100

AK (KsiVin)


10. 13. 16. 20. 21.13 (max)

4.34 5.17 8.72

13.2 19.0 26.3 58.8

101. 181. 208.

RMS % Error

4.82

Life Prediction Ratio Summary ED

I 1 1 1 1

0. .5 .8 1.25 2.

Figure 8.19.3.1.9 8-1172

47 r I I / J 1 _

Condition/Ht: T61 Form: 0.13 in. Sheet Yield Strength: 73.1 ksi Specimen Type: CCP (max load specified) Ult. Strength: 76.8 ksi Orientation: T-L Specimen Thk: 0.126 in Stress Ratio: 0.33 Specimen Width: 4 in. Frequency: 13.3 Hz Ref: 86842

1 AK (MPaVin) (

4 10 40 100

3 of 3)

1 AK (MPaVin)

4 10 40 100

- I i I i|>|'i 1 ' 1 'I'l'l -1

— Environment: Salt Fog; R.T. — 0

10 = I ' I 'I'l'l I ■ I 'I'l'l _L

0 10

lO"2

lO"3

o

6^10"+

\

-1 10

Ü

10"2

lO"3

u 5îo-4

\

-i 10

o

— —

"5

ZIG"5

TJ \ D "° -6

10

lO"7

m"8

-Z-

10 > XI

-5 10

-6 10

Z10"5

•a \ o "° -6

10

10"7

m"8

—

10 >

-5 10

-6 10

—

-3

—

—

" 1 , 1,1,1,1 I , I,I,I, ~ I , I,I,I, I i 1 i 1111

1 4 10 40 100

AK (KsiVin) 1 4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10-6in/cyde) AK (KsiVin) da/dN (10 "6in/cycle) 5.95 (min) 9.67 6. 9.88 7. 14.7 8. 21.1 9. 29.3

10. 40.2 13. 85.9 16. 127. 20. 209. 20.82 (max) 251.

RMS % Life Prediction Ratio Summary RMS % Life Prediction Ratio Summary Error A© Error

7.49 , i i i i

0. .5 .8 1.25 2. , I, i

0. .5 .8 1.25 1

2.


^ 7475 I Condition/Ht: T61 Form: 0.04 in. Sheet Specimen Type: CCP (max load specified) Orientation: T—L Stress Ratio: 0.33 Frequency: 13.3 Hz

Yield Strength: 72.1 ksi Ult. Strength: 70.8 - 79.8 ksi Specimen Thk: 0.042 - 0.045 in. Specimen Width: 4 in. Ref: 86842

AK (MPaVin) 4 10 40 100

(1 of 3)

10

10

ü

^10"'

c _

zio ■a tz

"o _K r- 10

10

10

- I ' I M'l'l I ' I Tl'l — Environment: Dry Air; R.T.

_L

: —

— —

: —

— M —

— —

" I , I,I,I, I , I,I,I, —

— 10

_0)

Ü

io E

— 10 \ o

-5 10

10

10

10

0) u ^10"4

4 10 40 100 AK (KsiVin)

10

10

10

10

f=—1—I I I I'll

AK (MPaVin) 4 10 40 100

~i—i I i I'MI =q

(2 of 3)

-Environment: H.H.A.; R.T. — 10

i I i I ill I I I III!

— 10

io"2 °

io"E

10 T3

D X»

-5 10

10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 6.16 (min) 2.49 7. 3.36 8. 4.80 9. 6.67

10. 8.87 13. 15.6 16. 24.6 19.58 (max) 115.

6.60 (min) 7.03 7. 8.26 8. 11.8 9. 16.2

10. 21.3 13. 42.4 16. 73.3 19.57 (max) 125.

RMS % Error

6.67


.5 .8 1.25 2.

RMS % Error

4.38


0. .8 1.25

Figure 8.19.3.1.10 8-1174

Condition/Ht: T61 Form: 0.04 in. Sheet Specimen Type: CCP (max load specified) Orientation: T—L Stress Ratio: 0.33 Frequency: 13.3 Hz

^ 7475 r E

Yield Strength: 72.1 ksi Ult. Strength: 70.8 - 79.8 ksi Specimen Thk: 0.042 - 0.045 in. Specimen Width: 4 in. Ref: 86842


1 4 10 40 100

b I ' I M'l'l

10

10

_Q3

o _ ü 10

"1 I I M Ml

Environment: Salt Fog; R.T. — 10

10

10

10

10 I I Hill I I I I III

AK (MPaVin) 1 4 10 40 100

10

o

-3 | 10 E

10

10

10

o XI

10

IQ"3

o

\ c _

10

■o _c —

4 10 40 100 AK (KsiVin)

10

10

10

- I ' I ' I'l'l I ' I 'I'M J

10

— io"2£

o

-Jio >

— 10

10

4 10 40 100 AK (KsiVin)


10. 13. 16. 16.67 (max)

9.66 13.9 19.9 25.6 30.0 60.1

112. 144.

RMS 56 Error

4.60


RMS % Error

.5 .8 1.25


<— 0. .5 .8 1.25


R I 7475 I Condition/Ht: T61 Form: 1.5 in. Plate Specimen Type: CT Orientation: L-T Frequency: 20 Hz Environment: LAB AIR; RT

AK (MPaVin) 4 10 40 100

10

10

_a> \— o O-10-4

c _

-5 z 10 x>

■o _B — 10

10

10

=-r"' i M'l'i i ' i Ti'i _L

— Stress Ratio: 0.1 -^

~~ — — — — — — - — —

— — — - — — — — — - — d — — _ffl —

— JW - — cS' — z □ — — - — — — —

- I , I,LI, I , LI,I, -

(1 of 1)

— 10

— 10

0)

- _x"0 10

10

o

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10'6in/cycle) 5.90 (min) 6. 7. 8. 9.

10. 13. 16. 17.32 (max)

0.790 0.765 1.01 2.09 4.07 6.53

20.6 50.6 61.6

RMS % Error 26.97


| 1 !— 1 1

.5 .8 1.25 2. 0.

Yield Strength: 73.9 ksi Ult. Strength: 78.5 ksi Specimen Thk: 0.65 in. Specimen Width: 1.49 - 1.5 in. Ref: 85363

10

-3 10

_aj —

o _

6^10-4

c |_

-5 10

10

-7 10

10

AK (MPaVin) 4 10 40 100

I ' I 'I'l'l =l > I MUM

' I i HI, , I i I i li

10

10

a;

10~ 2Ü

o \

10" •I '—' z

in" ̂ u

XJ

— 10

— 10

4 10 40 100

AK (KsiVin)

AK (KsiVin) . da/dN (10"6in/cycle)

RMS % Error


—i , 1—

.5 .8 1.25

Figure 8.19.3.1.11 8-1176

^ 7475 h Condition/Ht: T6151 Form: 0.09 in. Sheet Specimen Type: CT Orientation: L-T Frequency: 20 Hz Environment: LAB AIR; RT

R

Yield Strength: 62.2 ksi Ult. Strength: 70.2 ksi Specimen Thk: 0.089 in. Specimen Width: 1.496 - 1.498 in. Ref: 85363

— Stress Ratio: 0.1 -2

10

10

o fri o-4

10 "O —

"o _„ — 10

10

10

AK (MPaVin) 4 10 40 100

i I i I Mil—

(1 of 1)

i I i 11111 =q

i i i i 111 i I iI Mi

— 10

— 10

o \

-a! 10 £

10 a

-5 10

10

4 10 40 100 AK (KsiVin)

AK (MPaVin) 1 4 10 40 100

-2 10

10

o 6-10-4

10

10

10

10

= I ' I ' ITI I ' I ' l'l'l -1

— 10

— 10

io"2£

10"°E

— 10

— 10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10_6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 9.79 (min)

10. 13. 16. 20. 24.63 (max)

4.55 5.12

15.2 26.3 43.2 76.3

RMS % Error 18.18


RMS % Error

r- 0. .5 .8 1.25 2.


0. ■—i 1 1—

.5 .8 1.25

Figure 8.19.3.1.12 8-1177

—] 7475 I Condition/Ht: T6151 Form: 0.09 in. Sheet Specimen Type: CT Orientation: T-L Frequency: 20 Hz Environment: LAB AIR; RT

AK (MPaVin) 4 10 40 100

10

10

ju — o

c _

Z 10

10

10

10


— —

— —

—

"" (T —

—"" —

- I , I,I,I, I , I,I,I, —

(1 of 1)

10

— 10

iu~2£

-3 | 10 £

- ic>\ o

10

10

4 10 40 100 AK (KsiVin)


10. 13. 16. 20. 25. 30. 30.31 (max)

4.56 4.73 6.79

14.8 25.6 46.3 84.2

119. 121.

RMS % Error 18.21

Life Prediction Ratio Summary <m

.5 .8 1.25 —I-'

2.

Yield Strength: 62.2 ksi Ult. Strength: 70.2 ksi Specimen Thk: 0.089 in. Specimen Width: 1.478 - Ref: 85363

1.498 in.

AK (MPaVin) 4 10 40 100

10

10

O

oîo-4

Z 10

-o _« — 10

10

10

- I ' I 'I'l'l 1 ' I Tl'l3

10

10

_Q3

io~2 u

o

— 10 E

— 10

10

o

10

4 10 40 100 AK (KsiVin)


RMS % Error


—T—

.8 1.25

Figure 8.19.3.1.13 8-1178

■\ 7475 Condition/Ht: T651 Form: 0.75 in. Plate Specimen Type: CT Orientation: L—T Frequency: 25 Hz Environment: LAB AIR; RT

R

Yield Strength: 79.6 ksi Ult. Strength: 87.7 ksi Specimen Thk: 0.248 in. Specimen Width: 2.5 in. Ref: AL002

AK (MPaVin) 4 10 40 100

(1 of 1)

10

10

o o 10 c _

2 10

x _fi h- 10

10

10


— —

— —

— A —

— w —

— Jp -=

- I°, I,I,I, I , l,l,l, —

— 10

10

10"2^ o \

-3 | 10 E

— 10

— 10

4 10 40 100 AK (KsiVin)

AK (MPaVin) 1 4 10 40 100

10

-3 10

U

^10"4

■z. 10 xi t:

10

10

10

-7

= I ' I M'l'l I ' I 'I'l'l—3

o

- 10'\ o X

10

— 10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 2.66 (min) 3. 3.5 4. 5. 6. 7. 8. 9.

10. 12.54 (max)

0.0878 0.111 0.175 0.302 1.03 3.52 8.72

13.3 15.2 18.7 33.8

RMS % Error 18.31


i 1 1 1 1—

0. .5 .8 1.25 2.

RMS % Error


.5 .8 1.25

Figure 8.19.3.1.14 8-1179

R \ 7475 I Condition/Ht: T651 Form: 0.75 in. Plate Specimen Type: CT Orientation: L-T Frequency: Environment: H.H.A.; RT

1

-2 10

10

o 6^10-4

10

10

10

10

AK (MPaVin) 4 10 40 100

i I i I MM

(1 of 1)

- I ' I 'IT — Stress Ratio: 0.33

4 10 40 100

AK (KsiVin)


10. 13. 16. 20. 24.13 (max)

0.145 0.136 0.146 0.236 0.931 3.51 9.93

19.9 29.2 35.5 55.0

123. 242. 333.

RMS 95 Error 31.66


i 1 1 1

0. .5 .8 1.25 —I-'

2.

Yield Strength: Ult. Strength: Specimen Thk: 0.248 in. Specimen Width: 2.55 in. Ref: AL002

AK (MPaVin) 1 4 10 40 100

t I ' I Tl'l 1 ' I Tl'l

10

10 -3

SE — O _

O-10-4

Z 10

10

10

10 I I II III ' I I I III ill

10

10

a> 10~

2T3 Ü \

10~ ■|

z i TJ

m 4\ u -o

— 10

10

4 10 40 100

AK (KsiVin)


RMS % Error


0. —i 1 1—

.5 .8 1.25

Figure 8.19.3.1.15 8-1180

7475 Condition/Ht: T651 Form: 0.51 in. Plate Specimen Type: CCP (max load specified) Orientation: L—T Frequency: 5.2 Hz Environment: H.H.A.; RT

R

Yield Strength: 74.5 ksi Ult. Strength: 80 ksi Specimen Thk: 0.508 in. Specimen Width: 3.025 - 3.026 in Ref: 86213

10

-3 10

o

o 10

10

10

10

10


4 10 40 100 i I i I iMI— i I i I 1111

Stress Ratio: 0.33

i I i 11 li i l i l Hi

AK (MPaVin) 1 4 10 40 100

— 10

10

— io"2 u

10"3E

10

10

10

o XI

10

10

u ^10"4

\ c _

z: io ■a

"o _« —

4 10 40 100

AK (KsiVin)

10

10

10

— I " I ' I'l'i I ' I 'ITI J

— 10

— 10

o

10

— 10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10_6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 5.49 (min) 6. 7. 8. 9.

10. 13. 16. 20. 24.79 (max)

6.57 8.23

12.0 17.0 23.8 33.3 88.7

164. 302. 430.

RMS % Error

5.45


RMS % Error

0. .5 .8 1.25 2.


i r 0.

T-

.8 1.25

Figure 8.19.3.1.16 8-1181

R 7475 I

Condition/Ht: T651 Form: 0.75 in. Plate Specimen Type: WOL Orientation: L—T Frequency: 25 Hz Environment: H.H.A.; RT


10

10

ü

frl 0"+

Z 10 T3

10

10

10

AK (MPaVin) 4 10 40 100

1 I M'l'l

(1 of 1)

"i I i I i t i TT

' i 11 in LU

o

10

10

— 10 E

- _x"a 10 o

X>

-5 — 10

10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (1CT6in/cycle) 2.40 (min) 2.5 3. 3.5 4. 4.13 (max)

0.0365 0.0547 0.140 0.273 0.795 1.16

RMS % Error 21.42


.5 .8 1.25 —i-

2.

Yield Strength: Ult. Strength: Specimen Thk: 0.242 - 0.25 in. Specimen Width: 2.546 - 2.552 in Ref: AL003

AK (MPaVin) 1 4 10 40 100 f=~l—i I i HIM—

10

10

U Ö-10-4

c _

-5 Z 10 XI

"O _K — 10

10

10

i i 11 mi

i i 111ii i i 111ii

— 10

10

-2 10

o \

10" '1 z

1 TJ in '\

U XI

10

10

4 10 40 100

AK (KsiVin)


RMS % Error


0. —i 1 1— .5 .8 1.25

Figure 8.19.3.1.17 8-1182

Condition/Ht: T651 Form: 1 in. Plate Specimen Type: DCB Orientation: T—L Stress Ratio: 0.1 Frequency: 1 Hz

-i 7475 r

Yield Strength: Ult. Strength: Specimen Thk: Specimen Width: Ref: 88140

— Environment: Dry Air; R.T. — 10

10

10

o o*10~

10

10

10

10

AK (MPaVin) 4 10 40 100

(1 of 2)

1 I Mill

10

— io"2£

o

-3 tz 10 E

o XI

AK (MPaVin) 1 4 10 40 100 pr—I—i I i I i|i|—

(2 of 2)

10

4 10 40 100

AK (KsiVin)

10

10

o o 10

10

10

10

10

I IMHI TT Environment: 3.5s« NACL; R.T. -=| 10

&

a

i t 111 n ' i 111 n U

— 10

o

10

10

10

D XI

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (I0"6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 4.87 (min) 5. 6. 7. 8. 9.

10. 13. 13.95 (max)

0.899 0.888 1.69 4.08 6.51 7.78 8.52

15.9 19.4

RMS % Error 11.70

Life Prediction Ratio Summary RMS < Error

0. .5 .8 1.25 2.


0. .5 .8 1.25

Figure 8.19.3.1.18

8-1183

R \ 7475 Condition/Ht: T651 Form: 1 in. Plate Specimen Type: Orientation: Frequency: 20 Hz Environment: DRY AIR; RT

Yield Strength: Ult. Strength: Specimen Thk: 1 in. Specimen Width: Ref: 91332

AK (MPaVin) 4 10 40 100

(1 of 1)

10

10

Ü

6^10-4

c _

•Z. 10

■D

10

10

10

- I I I >lll'l I ' I 'l'l'l -1


~~ —

™" —

— —

— rir —

— —

" I , I,I,I, I , I,I,I, -=

— 10

10"2 ° o

— 10 E

10

10

10

o T3

4 10 40 100

AK (KsiVin)


10. 13. 16. 20. 25. 26.91 (max)

1.15 1.68 3.37 5.32 7.34 9.31

15.3 23.2 41.2 77.6 94.6

RMS % Error

7.92


0. —i 1 1—

.5 .8 1.25

AK (MPaVin) 4 10 40 100

10

-3 10

u

u 10

c _

10

-o _K — 10

10

10

— i ' I 'I'l'l I ' I 'ITI -1

— 10

io"2^ Ü

10"JE

10

10

o ■o

— 10

4 10 40 100

AK (KsiVin)


RMS x Error


0. —, 1 1—

.5 .8 1.25

Figure 8.19.3.1.19

8-1184

Condition/Ht: T651 Form: 0.5 in. Plate Specimen Type: Orientation: Frequency: 20 Hz Environment: DRY AIR; RT

^ 7475 r R

Yield Strength: Ult. Strength: Specimen Thk: 0.5 in. Specimen Width: Ref: 91332

AK (MPaVin) (1 of 1}

4 10 40 100

10

-3 10

o 6^1 o"+

\ c _

Z10

-o _E I— 10

10

10

_ I . I i|T| | i | • i M' I ->■ — Stress Ratio: 0.1 —

— —

— —

— —

- M —

— —

" I , Mill I , LI,I, —

10

io"2£ Ü

,0*1

-JlO > "O

— 10

— 10

AK (MPaVin) 4 10 40 100

10

10

o ^10"4

c _

2 10

"O _c —

4 10 40 100 AK (KsiVin)

10

10

10

= I ' I 'ITII ' I Tl'l3

10

— 10

io"2 u

o

10"3E

" -*F 10

— 10

— 10

T3

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (I0"6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 6.40 (min) 1.14 7. 1.38 8. 2.20 9. 3.64

10. 5.76 13. 13.6 16. 21.9 20. 37.2 24.37 (max) 70.9

RMS % Error

8.95


.5 .8 1.25

RMS % Error


0. -1 1 1—

.5 .8 1.25

Figure 8.19.3.1.20 8-1185

R ^ 7475 I Condition/Ht: T651 . Form: 1.25 in. Plate Specimen Type: Orientation: Frequency: 20 Hz Environment: DRY AIR; RT

AK (MPaVin) 4 10 40 100

i I i I MM

(1 of 1)

4 10 40 100

AK (KsiVin)


10. 13. 16. 20. 25. 30. 35. 35.06 (max)

2.42 2.57 3.36 7.68

13.3 19.3 31.4 48.0 89.8 90.9

RMS % Error 10.62


—i 1 1

.5 .8 1.25

Yield Strength: Ult. Strength: Specimen Thk: 0.125 in. Specimen Width: Ref: 91332

AK (MPaVin) 1 4 10 40 100 t=—I—I I I Mill—

10

10

o _

o^10-4

10 -a —

x> _, — 10

10

10

i l i l m FT

i i 111 n ' i 111ii

10

— 10

—

o

10 E

^10 > ■a

— 10

10

4 10 40 100 AK (KsiVin)


RMS % Error


0. .5 .8 1.25

Figure 8.19.3.1.21 8-1186

Condition/Ht: T7351 Form: 1.75 in. Plate Specimen Type: CT Orientation: L—T Frequency: 1 Hz Environment: DIST WATER; RT

7475

Yield Strength: 63.2 ksi Ult. Strength: 73.7 ksi Specimen Thk: 0.246 in. Specimen Width: 2 in. Ref: DA004

R

AK (MPaVin) 4 10 40 100

(1 of 1)

10

10

u fri o-4

\ c _

Z 10

"O _* — 10

10

10

- I I I ll'lll I I I 'I'l'l -^ — Stress Ratio: 0.05 —

: —

: —

— —

— s —

— —

- I , I,I,I, I , I,I,I, —

AK (MPaVin) 4 10 40 100

— 10

- 10"J E

-J10> "a

— 10

— 10

4 10 40 100

AK (KsiVin)

10

10

u 6^10-+

c _

10

•u _K - 10

10

10

= I ' I 'I'l'l I ' I 'I'l'l 3

— 10

10"2^ u

10"3E

- 10 \ o XI

— 10

— 10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (1CT6in/cycle) 6.52 (min) 7. 8. 9.

10. 13. 16. 20. 25. 27.27 (max)

0.745 1.25 2.68 4.32 5.97

11.3 20.5 41.0 75.5 99.0

RMS % Error

9.17

Life Prediction Ratio Summary RMS : Error

0. .5 .8 1.25 2.


0. .5 .8 1.25

Figure 8.19.3.1.22 8-1187

EF I 7475 | Condition/Ht: T7351 Form: 3 in. Plate Specimen Type: CT Orientation: L—T Stress Ratio: 0.1

10

ID"3

ü

6^10"+

10

D ■o

10

10

10

AK (MPaVin) 4 10 40 100

T 1 I ' I I Ml—

(1 of 2)

I Mill = T_7" i - — Environment: Dry Air; R.T.; — 10

_ Frequency: 6. Hz

— 10

— 10

10

10

10

10

o

Ü

£ E

o T3

4 10 40 AK (KsiVin)

100

AK (KsiVin) da/dN (l(r6in/cycle) 3.78 (min) 4. 5. 6. 7. 8. 9.

10. 13. 16. 20. 25. 28.02 (max)

0.131 0.149 0.247 0.391 0.618 0.993 1.63 2.71

11.3 26.9 43.5

102. 106.

RMS % Error 13.76


i 1 1 1 1—

0. .5 .8 1.25

Yield Strength: 59.5 ksi Ult. Strength: 69.1 ksi Specimen Thk: 0.744 - 0.748 in. Specimen Width: 5.006 in. Ref: GD006

AK (MPaVin) 1 4 10 40 100

—l—i i i| mi—

(2 of 2)

Environment: H.H.A.; R.T.; -=| 10 _ Frequency: 1. Hz

i I i

4 10 40 100 AK (KsiVin)


10. 13. 16. 20. 25. 29.75 (max)

0.255 0.384 0.653 1.13 1.93 3.17

10.7 24.8 48.1 87.0

169.

RMS % Error 10.38


, ) 1 1 |

0. .5 .8 1.25 2.

Figure 8.19.3.1.23 8-1188

I -7 47, ̂ I I / J I ~ " K Condition/Ht: T7351 Form: 1.75 in. Plate Yield Strength: 63.2 ksi Specimen Type: CT Ult. Strength: 73.7 ksi Orientation: L—T Specimen Thk: 0.498 in Frequency: 10 Hz Specimen Width: 1.998 n. Environment: LAB AIR; RT Ref: DA004


-Ml Tl'l I ' I 'ITI a - I 'I Tl'l I ' I 'ITI _L

— Stress Ratio: 0.1 — 10 — 10

-2 — _ .. „-2 10 10

-1 10

-t 10

ID"3 o — o o 0 "° -6 — m T3 "° -6 X!

10 10

M -5 10

-5 10

io"7 10~7

— -6

10 -6

10

m"8 I.I ,LL I , I,LI, - m"8 ~ I , I,I,I, I , l,l,l, 1 4 10 40 100 1 4 10 ,40 100


AK (KsiVin) da/dN (I0"6in/cycle) AK (KsiVin) da/dN (10 ~6in/cycle) 4.08 (min) 0.139 5. 0.247 6. 0.475 7. 0.903 8. 1.67 9. 2.99

10. 4.99 13. 14.2 16. 27.7 19.79 (max) 60.7

RMS S Life Prediction Ratio Summary RMS % Life Prediction Ratio Summary Error □ Error

10.67 i i i i i

0. .5 .8 1.25 2. 0. .5 .8 1.25 2.

Figure 8.19.3.1.24 8-1189

—H 7475 h- Condition/Ht: T7351 Form: 1.75 in. Plate Yield Strength: 63.2 ksi

Specimen Type: CT Ult. Strength: 73.7 ksi

Orientation: L-T Specimen Thk: 0.24 - 0.251 in.

Stress Ratio: 0.1 Specimen Width: 1.999 - 2 in.

Environment: LAB AIR; RT Ref: DA004;NC005

AK (MPaVin) ° °f 2) AK (MPaVin) (2 °f 2)

1 4 10 40 100 1 4 10 40 100

_ -| , i iMi| i i i <|i|i| -i

— Frequency: 10. Hz ~ 0

10 — I ' I ' ITI I ' I ' ITI -1

— Frequency: 20. Hz -= 0

10

IQ"2 ~■ —

10"2

-i 10

-1 10

IQ"3 ^^ io"3 ^

0>

tp io~2£

in/c

ycl

>

o

ü"IO-4

,^_ 10 E y*~s — y '

zio~5

\ o

~0 e

z 10 >

zio"s

•a \ a "° -6

Z

—

io"6 10

__ T — -5

10 -5

10

10"7 - 10"7

— -6

10 — 7 -6

10

— 1 III i ill -8 ~ |o 1 1 1 I I LI, 1^-8 i i Li i i Li 10 1 1 1 1 1111 i i i i ilit

1 4 10 40 100 1 4 10 40 100



5.21 (min) 0.231 2.49 (min) 0.0260 6 0.577 2.5 0.0265 7 1.36 3. 0.0519 8 2.59 3.5 0.0915 9 4.28 4 0.150

10 6.44 5. 0.343 13 16.0 6 0.688 16. 31.5 7. 1-26 20 66.0 8. 2.15 25. 134. 9. 3.51 26.12 (max) 149. 10. 5.49

13. 16.2 16. 31.2 20. 49.7 23.67 (max) 111.


Error A o Error □ 10.63

i 1 1 1 i

0. .5 .8 1.25 2. 20.79 0. .5 .8 1.25 2.

Figure 8.19.3.1.25

8-1190

Condition/Ht: T7351 Form: 1.5 in. Plate Specimen Type: CT Orientation: L—T Stress Ratio: 0.1 Frequency: 20 Hz

H 7475



1 4 10 40 100

i- I ' I Tl'l I ' I 'I'l'l — Environment: Lab Air; R.T. — 10


4 10 40 100

10

10

O

^10"4

c _

2 10 T3 tZ

-o _e |— 10

10

4 10 40 100 AK (KsiVin)

10 .-8

— Environment: 3.5SB NACL; R.T. —

— -=

— —

— -=

— Sjr -=

— —

" I . I.I.I. I , I,I,I, =

— 10

jo

io"2^

10

— 10

10

o

4 10 40 100

AK (KsiVin)


10. 13. 16. 19.80 (max)

0.383 0.390 0.707 1.53 3.15 5.65

16.0 27.7 57.8

6.90 (min) 7. 8. 9.

10. 10.75 (max)

2.14 2.70 6.38 8.00

15.9 23.7

RMS 55 Error

17.70


0. .5 .8 1.25

RMS % Error

11.75


i 1 1 1 1—

0. .5 .8 1.25 2.

Figure 8.19.3.1.26 8-1191

T1 ' 4/ r5 I — Condition/Ht: T7351 Form: 3 in. Plate Yield Strength: 59.5 ksi Specimen Type: CT Ult. Strength: 69.1 ksi

Orientation: L-T Specimen Thk: 0.751 - 0.759 in.

Frequency: 1 Hz Specimen Width: 4.991 - 4.999 in.

Environment: S.T.W.; RT Ref: GD006

AK (MPaVin) (1 of 2) AK (MPaVin) (2 °f 2)

1 4 10 40 100 1 4 10 40 100

-Ml 'I'l'l I ' I 'I'l'l — Stress Ratio: 0.1

_L 0

10 = I ' I ' I'l'l I ' I ' I'l'l -1


10

ID"2 —

io-2

~~ -i 10 10

ID"3 — ^_^ io~3 ,-N

=

io"2£ 0> J io"2£ o

6-10-4

\ c

— o \

10 E

b-io-4 .y o \

-3| 10 E —

-■ IIJH-^ - CJ2P

•—' '—' ^■^

ZIG"5

\ o

-z. 10 >

Z10"5

"a \ o

■O -6

= 9a

106 10 = a -5

10 -5

10

ID"7 10"7

* —

-6 10 —

-6 10

^rrB ~ I , I ,!,!, I , LI,I, io"8 - 1 , 1,1,1, i, i,i,i, 1 4 10 40 100 1 4 10 40 100


AK (KsiVin) da/dN (10"6 n/cycle) AK (KsiVin) da/dN (10"6in/cycle) 6.61 (min) 3.14 5.51 (min) 0.252 7 4.3C 6. 0.783 8. 8.37 7. 4.20 9 14.0 8. 12.8

10. 21.1 9. 27.3 13. 48.6 10. 46.0 16. 82.1 13. 103. 20. 132. 16. 141. 25. 205. 20. 174. 30. 310. 25. 230. 35. 494. 30. 350. 40. 828. 35. 621. 50. 2119. 36.44 (max) 753. 50.66 (max) 2230.


Error □ a Error o a

30.67 i 1 1 i

0. .5 .8 1.25 2. 56.66 0. .5 .8 1.25 2.

Figure 8.19.3.1.27 8-1192

7475 Condition/Ht: T7351 Form: 3 in. Plate Specimen Type: CT Orientation: L-T Frequency: 6 Hz Environment: DRY AIR; RT

R

Yield Strength: 59.5 ksi Ult. Strength: 69.1 ksi Specimen Thk: 0.75 in. . Specimen Width: 5 in. Ref: GD006

AK (MPaVin) 4 10 40 100

10

10

Ü

^10"+

c _

Z 10 x tz

xi _c — 10

10

10


— —

: —

: Tm —

- : A —

i / —

— n

- i ,i.i.i, 1 , 1,1,1, —

(1 of 1)

10

— 10

— 10

— 10

-2Ö

o \ E £

XI

— 10

— 10

4 10 40 100

AK (KsiVin)

AK (MPaVin) 1 4 10 40 100

-2 10

10

u o 10

2 10 XJ tz

x _A I— 10

10

10

-7

= I ' I M'l'l I ' I 'I'l'l =

— 10

03

10" 2T3

o \

10" '1 v—' 2

m" ̂ u

T3

— 10

10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 3.40 (min) 3.5 4. 5. 6. 7. 8. 9.

10. 13. 16. 20. 25. 30. 35. 35.96 (max)

0.114 0.121 0.169 0.344 0.688 1.30 2.28 3.78 5.89

16.6 33.5 59.1 93.6

183. 521. 666.

RMS % Error 24.06


i 1 1 1 1—

0. .5 .8 1.25 2.

RMS 5? Error


0. —i r-

.5 .8 1.25

Figure 8.19.3.1.28 8-1193

■i 7475 I Condition/Ht: T7351 Form: 1 — 4 in. Plate Specimen Type: CT Orientation: L—T Stress Ratio: 0.33 Frequency: 2 — 20 Hz

Yield Strength: 52.6 - 59.6 ksi Ult. Strength: 63.8 - 70 ksi Specimen Thk: 1 in. Specimen Width: 3.805 in. Ref: AL001

AK (MPaVin) 4 10 40 100

(1 of 2)

10

-3 10

O

îo-4

c _

10

10

10

10

- | 1 | >|l|l| | ' | 'I'l'l -L


— —

: —

— —

_ m —

— w —

- 1 ,1,1,1, 1 ,1,1,1, —

AK (MPaVin) 4 10 40 100

i I i I il'l 1—i I i I ' [■ i

(2 of 2)

— 10

io"2 ° a

,o-I

— 10

— 10

4 10 40 100

AK (KsiVin)


10. 13. 16. 19.79 (max)

0.611 0.732 1.14 1.78 2.89 4.94

18.0 33.2 58.9

RMS % Error 25.15


0. —i 1 1—

.5 .8 1.25 2.

4 10 40 100

AK (KsiVin)


10. 13. 16. 16.77 (max)

3.43 4.76 9.70

14.2 18.1 22.2 46.5 97.7

113.

RMS % Error 20.35


i 1 1 1 1—

0. .5 .8 1.25 2.

Figure 8.19.3.1.29 8-1194

7475 Condition/Ht: T7351 Form: 1.75 in. Plate Specimen Type: CT Orientation: L—T Frequency: 5 Hz Environment: LAB AIR; RT

R

Yield Strength: 63.2 ksi Ult. Strength: 73.7 ksi Specimen Thk: 0.499 in. Specimen Width: 1.999 in. Ref: DA004

AK (MPaVin) 4 10 40 100

10

10

ü

6^10"+

10

T> 10

10

10

.-6

- I i I i|i|i| | ' | Tl'l -L


— —

: —

— —

: / —

— —

II 1 1

1 ,1,1,1, —

(1 of 2)

10

AK (MPaVin) 4 10 40 100

-2

10

10"2£ o

-3 p 10 E

- 10~\ o T3

— 10

— 10

4 10 40 100

AK (KsiVin)

10

10

Q) —

O

u 10

Z 10

10

10

10

- | - | >n>| | ' | l|l|l| -L

— Stress Ratio: 0.8 -=

— —

— —

: , -=

: / —

— —

" I , I,I,I, I < l,l,l, —

(2 of 2)

— 10

10

o

X)

10

— 10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10'6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 6.64 (min) 7. 8. 8.48 (max)

2.48 3.23 5.71 6.79

5.17 (min) 6. 7. 8. 8.37 (max)

3.40 5.13 7.72

14.0 18.6

RMS % Error

1.84


0. —i 1 1—

.5 .8 1.25 2.

RMS % Error

3.26


0. .5 .8 1.25 2.

Figure 8.19.3.1.30 8-1195

R i 7475 | Condition/Ht: T7351 Form: 1.75 in. Plate Specimen Type: CT Orientation: L-T Frequency: 5 - 15 Hz Environment: LAB AIR; RT

AK (MPaVin) 4 10 40 100

-i—i I M i HI—

(1 of 1)

10

10

ü

^10"4

10

10

10

10

I ' I 'I'l'l—I Stress Ratio: 0.4

I I I I Hi ' i i i in

— 10

— 10

10"JE

10

10

10

o

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) 2.87 (min) 3. 3.5 4. 5. 6. 6.16 (max)

0.146 0.159 0.234 0.383 0.949 1.93 2.81

RMS % Error

9.59


i 1 1 1 1—

0. .5 .8 1.25 2.


AK (MPaVin) 1 4 10 40 100

b I ' I 'I'l'l I ' I 'I'l'l

10

10 -3

_S2 <— o

6^10-4

c _

10 -5

TD —

10

10

10 I I I I ill ' i i in

— 10

— 10

io"2£ o \

-3 | 10 E

10

10

10

o T3

4 10 40 100 AK (KsiVin)


RMS % Error


i 1 1 1 1—

0. .5 .8 1.25 2.

Figure 8.19.3.1.31 8-1196

7475 Condition/Ht: T7351 Form: 1.75 in. Plate Specimen Type: CT Orientation: L-T Frequency: 20 Hz Environment: LAB AIR; RT

R

Yield Strength: 68.8 ksi Ult. Strength: Specimen Thk: 0.248 - 0.25 in. Specimen Width: 1.993 - 2.005 in Ref: DA005

AK (MPaVin) 4 10 40 100

(1 of 2)

10

10

o ^10~4

c _

10

-o _K - 10

10

10

- I I I >lllll I.' I 'I'l'l -L


— —

— a —

— —

— ° M —

— /&£ —

~ l , l,l,h i 1111111

—

10

_0>

io"2£ o


- io"° E

— 10

— 10

4 10 40 100

AK (KsiVin)

10

10

o

^10~4

■o 10

XI

10

10

10

-7


4 10 40 100 i I i MIM— i I I I m IT

' i i i i n I I I llll

-jio"2 °

10

10

10 E

10

10

10

o XI

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (I0'6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 1.61 (min) 2. 2.5 3. 3.5 4. 5. 6. 7. 8. 9.

10. 13. 16. 20. 21.97 (max)

0.0359 0.0742 0.145 0.244 0.375 0.544 1.03 1.82 3.04 4.85 7.25

10.1 18.5 28.3 64.8 84.0

1.78 (min) 2. 2.5 3. 3.5 4. 5. 6. 7. 7.99 (max)

0.0375 0.0566 0.157 0.392 0.804 1.34 2.43 3.47 4.77 7.22

RMS % Error

>100.0


0. .5 —r- .8 1.25

RMS % Error 20.94

Life Prediction Ratio Summary □ ©

0. .5 .8 1.25 2.

Figure 8.19.3.1.32 8-1197

EF I 7475 | Condition/Ht: T7351 Form: 3 in. Plate Specimen Type: CT Orientation: L-T Stress Ratio: 0.5

AK (MPaVin) 4 10 40 100

10

10

Ü

fri o"+

c _

Z 10

10

-s

10

10

E i ' I 'I'l'l I ' I Tl'l -1

— Environment: Dry Air; R.T.; — _ Frequency: 6. Hz —

— —

_ —

—

: / —

= y —

- i , i.ij, i , I,I,I,

—

(1 of 2)

— 10

10

-2 10

— 10

a; o o

E

- _*"o 10

— 10

o XI

10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (I0'6in/cycle) 2.69 (min) 3. 3.5 4. 5. 6. 7. 8. 9.

10. 13. 16. 20. 25. 26.23 (max)

0.0820 0.111 0.177 0.273 0.595 1.18 2.13 3.62 5.80 8.83

23.1 41.8 75.5

147. 155.

RMS % Error 13.49


i 1 1 1 1—

0. .5 .8 1.25 2.

Yield Strength: 59.5 ksi Ult. Strength: 69.1 ksi Specimen Thk: 0.747 - 0.75 in. Specimen Width: 4.998 - 5.005 in Ref: GD006

(2 of 2) AK (MPaVin)

1 4 10 40 100

- I ' I 'I'l'l I ' I 'I'l'l — Environment: S.T.W.; R.T.; -=j 10

Frequency: 1. Hz

4 10 40 100

AK (KsiVin)


10. 13. 16. 20. 24.36 (max)

0.233 0.266 1.63 5.86

14.7 28.6 46.3 65.3

124. 200. 339. 565.

RMS % Error 19.69


i 1 1 —i 1—

0. .5 .8 1.25 2.

Figure 8.19.3.1.33 8-1198

Condition/Ht: T7351 Form: Plate Specimen Type: CT Orientation: L-T Frequency: 10 Hz Environment: LAB AIR; RT

7475 r

Yield Strength: Ult. Strength: Specimen Thk: 0.24 in. Specimen Width: 2 in. Ref: NC005

R


4 10 40 100

10

ID"3

ju — o frlO"4

c _

10

"o - - 10

10

10

-7

- I I I ll>lll I ' I 'I'l'l -L


— —

— —

— —

— M —

— M —

~ I , i,I,i, I , l,hl, —

— 10

10*£ Ü \

-3 | 10 E

-Jio \

AK (MPaVin) 1 4 10 40 100

10

10

4 10 40 100 AK (KsiVin)

10

10

-2 - o >>..„-♦ o 10 \ c _

Z 10 ■a t

10

10

10

= I ' I 'I'l'l I ' I 'I'l'l =

io'2£ o \

-3 | 10 E

— 10 \

-5 — 10

10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (I0"6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 3.27 (min) 0.217 3.5 0.243 4. 0.371 5. 1.05 6. 2.54 7. 4.74 8. 7.38 9. 10.9

10. 14.5 10.26 (max) 15.1

RMS % Error

3.88


i 1 1 1 1—

0. .5 .8 1.25 2.

RMS % Error


i 1 1 1 1—

0. .5 .8 1.25 2.

Figure 8.19.3.1.34 8-1199

EF i 7475 Condition/Ht: T7351 Form: 1.75 in. Plate Specimen Type: CT Orientation: L-T Stress Ratio: 0.8


1 4 10 40 100

c=—1—i I i I MM—

— Environment: Lab Air; R.T.; — 10

_ Frequency: 30. Hz

i M I il'l

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (KT'in/cycle) 1.23 (min) 1.3 1.6 2. 2.5 3. 3.5 4. 5. 5.42 (max)

0.00875 0.0140 0.0473 0.0872 0.138 0.261 0.537 1.03 2.46 2.84

RMS % Error 11.89

Life Prediction Ratio Summary o

, 1 1 1 1—

2. 0. .5 .8 1.25

Yield Strength: 63.2 - 68.8 ksi Ult. Strength: 73.7 ksi Specimen Thk: 0.25 in. Specimen Width: 1.994 - 2.001 in Ref: DA005;DA004

AK (MPaVin) 4 10 40 100

(2 of 2)

-2 10

10

Ü

Z 10

o

10

10

10 -8

- I i I 'i'l'l I ' I Tl'l -1

— Environment: Distilled Water; — R T ■ —

Frequency: 1. Hz —

^ —

—~ —

rr

— — ff

—

- i , \ :, i , i,i,i,

—

10

— 10

a; -2 TT

10" ü

Ü

-3 | 10 E

10

10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10'6in/cycle) 3.25 (min) 3.5 4. 5. 6. 7. 8. 9. 9.03 (max)

0.485 0.732 1.24 2.64 5.20 7.53

11.1 18.0 18.2

RMS % Error

7.57


0. .8 1.25

Figure 8.19.3.1.35 8-1200

Condition/Ht: T7351 Form: 3 in. Plate Specimen Type: CT Orientation: T—L Frequency: 6 Hz Environment: DRY AIR; RT

H 7475 R

Yield Strength: 61.3 ksi Ult. Strength: 72.1 ksi Specimen Thk: 0.751 — 0.755 in. Specimen Width: 5.005 in. Ref: GD006

AK (MPaVin) 4 10 40 100

-2 10

10

j?T i— u o^10-+

\ c _

■Z. 10 "C tz \ o "° -6

10

10

10

= I ' I 'I'l'l I ' I 'I'l'l — Stress Ratio: 0.1 —

— —

—

zz —

— ~ —

— —

~ —

— . 7 ' —

— pjjj —

— 0 —

— —

" I ,P,I,I, I , III,I, —

(1 of 2)

10

— 10

io"2£ o

— 10

10

— 10

a T3


4 10 40 100

10

10 -2

la"3

Ü

^10"4

\ c _

10

D

4 10 40 100 AK (KsiVin)

10

10

10

_ I . I .,.lll I I 1111 III -1


— —

? -=

/

-=

- /

□ —

= /

—

~ 1 , |,|,|, 1 , 1,1,1, -=

10

o \

-3 I 10 E

10

— 10

— 10

4 10 40 100 AK (KsiVin)


10. 3.33 13. 11.8 16. 27.7 20. 53.5 25. 120. 27.78 (max) 187.

3.30 (min) 0.121 3.5 0.134 4. 0.184 5. 0.386 6. 0.808 7. 1.59 8. 2.90 9. 4.88

10. 7.64 13. 20.4 16. 38.3 20. 66.0 24.91 (max) 174.

RMS % Error 24.91


0. .5 .8 1.25 2.

RMS % Error

6.77


0. .5 .8 1.25

Figure 8.19.3.1.36 8-1201

E ] 7475 I Condition/Ht: T7351 Form: 3 in. Plate Specimen Type: CT Orientation: T-L Stress -Ratio: 0.1 Frequency: 0.1 Hz


AK (MPaVin) 4 10 40 100

i i 11 MM—m

(1 of 2) AK (MPaVin) 4 10 40 100

(2 of 2)

— Environment: S.T.W.; R.T. — 10

4 10 40 100

AK (KsiVin)


10. 13. 16. 20. 25. 30. 31.22 (max)

0.274 0.509 0.963 1.71 2.86 4.50

13.2 27.3 50.4 88.6

174. 211.

RMS % Error 11.27


0. .5 .8 1.25 2.

10

10

u

6-10-4

10

10

10

10

I I I MIU i I I I 1111

□

i i i i i n u

a -ET

13"

— 10

V 2 TT

10 u \

10" ■1 -z.

m~ ̂ u

XI

10

10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (I0"6in/cycle)

RMS % Error


0. —i 1 1—

.5 .8 1.25 —i-'

2.

Figure 8.19.3.1.37 8-1202

■\ 7475 r Condition/Ht: T7351 Form: 3 in. Plate Specimen Type: CT Orientation: T—L Frequency: 1 Hz Environment: H.H.A.; RT

R Yield Strength: 61.3 ksi Ult. Strength: 72.1 ksi Specimen Thk: 0.75 in. Specimen Width: 4.995 in. Ref: GD006

AK (MPaVin) 4 10 40 100

-2 10

10

_tt) I— Ü

îo-4

Z 10

10

10

10

-7

- I i I i|i|i| | • | 'i'l'l -1


— —

— —

— —

— 4 —

— a —

III I

I , I . I.!,

—

(1 of 1)

10

AK (MPaVin) 1 4 10 40 100

10"2 <£

- io"J E

"O - 10■ \ o

10

— 10

4 10 40 100

AK (KsiVin)

10

10

Ü

6-10-4

10

10

10

10

= I ' I 'I'l'l I ' I 'I'l'l = 10

10

03 2 -rr

10 U

o \

10" •I ^^—' 2

m" ̂ o X)

— 10

— 10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10-6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 5.59 (min) 6. 7. 8. 9.

10. 13. 16. 20. 25. 30. 35. 36.11 (max)

0.383 0.44-5 0.721 1.25 2.15 3.58

11.9 25.3 49.2 98.5

215. 665. 925.

RMS % Error

5.58


i 1 1 1 1—

0. .5 .8 1.25

RMS % Error

2.


i—

0. —i 1 1—

.5 .8 1.25

Figure 8.19.3.1.38 8-1203

R 1 7475 I Condition/Ht: T7351 Form: 3 in. Plate Specimen Type: CT Orientation: T—L Frequency: 1 Hz Environment: S.T.W.; RT

Yield Strength: 61.3 ksi Ult. Strength: 72.1 ksi Specimen Thk: 0.75 - 0.752 in. Specimen Width: 4.997 - 5 in. Ref: GD006

AK (MPaVin) 4 10 40 100

10

10

o ü 10

c _

10

10

10

10

-7

_ I i I * (MM I ' I UTI -1


: I —

— j —

— f —

— JTL —

— EJ —

~ I , I,I,I, I i 1 i 1 i 11

—

(1. of 2)

10

10

10"2 °

,o-|

— 10

10

— 10

■a

4 10 40 100

AK (KsiVin)


10. 13. 16. 20. 25. 30. 35. 39.82 (max)

0.217 0.643 1.67 3.80 7.62

34.0 78.3

124. 177. 343. 916.

2659.

RMS X Error

35.44


i ; 1 1 1—

0. .5 .8 1.25

AK (MPaVin) 4 10 40 100

(2 of 2)

10

10

_QJ —

O

6^10-4

c _

-z. 10

"O _e I— 10

10

10

- I I I ll'l'l I I I >lllll -I — Stress Ratio: 0.3 -=

— —

#

—

f -=

—

: i —

- i , 1.1,i, i , i,i,i,

-=

— 10

io"2^

10 E

10

— 10

— 10

o X)

4 10 40 100

AK (KsiVin)


10. 13. 16. 20. 25. 26.55 (max)

0.226 0.343 1.10 3.86

11.4 25.5 42.7 72.2

106. 221. 374. 536.

RMS % Error

26.64


0. —i r~

.5 .8 1.25

Figure 8.19.3.1.39 8-1204

Condition/Ht: T7351 Form: 1 - 4 in. Plate Specimen Type: CT Orientation: T-L Frequency: 2 - 20 Hz Environment: L.H.A.; RT

-\ 7475 h

Yield Strength: 54.2 - 59.4 ksi Ult. Strength: 66 - 70 ksi Specimen Thk: 1 in. Specimen Width: 3.805 in. Ref: AL001

R

AK (MPaVin) 4 10 40 100

(1 of 1)

10

10

o fri o-4

\ c

10

-o _c — 10

10

10

_ | . | l|l|>! | I | 1|T| _L


— —

— o

—

— —

— w —

— —

~ I , I,I,I, I , M,l, —

10

10"2^ ü

,0*1

- _i"0 10

— 10

o

AK (MPaVin) 1 4 10 40 100

10

10

u

c _

z: 10

"O _c —

10

4 10 40 100 AK (KsiVin)

10

10

10

= I ' I ' I'M I ' I 'I'l'l J

— 10

— 10

10"2 o

«-I - 10 \ o

— 10

— 10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 5.68 (min) 0.558 6. 0.693 7. 1.21 8. 1.92 9. 3.00

10. 4.72 13. 15.7 16. 34.0 20. 115. 20.85 (max) 166.

RMS % Error 26.43


i 1 1 1 1—

0. .5 .8 1.25 2.

RMS % Error


0. -i 1 ;

.5 .8 1.25 —i-'

2.

Figure 8.19.3.1.40 8-1205

R i 7475 I Condition/Ht: T7351 Form: 4 in. Plate Specimen Type: CT Orientation: T—L Frequency: 2 — 30 Hz Environment: L.H.A.; RT

AK (MPaVin) 4 10 40 100

10

10

Ü

6^10"+

c _

-Z. 10

"o _K — 10

10

10

- i ' I M'l'l I ' I M'l'l J- — Stress Ratio: 0.33 —

— —

~~ —

—

— uj —

— cf= —

- I , I,I,I, I , I,I,I,

—

(1 of 1)

10

ü

,o-|

T> - 10 \ D

X>

— 10

— 10

4 10 40 100

AK (KsiVin)


10. 13. 15.21 (max)

0.0607 0.0785 0.128 0.189 0.361 0.622 1.02 1.64 2.57 3.93

12.1 22.4

RMS % Error

13.33


0. .5 .8 1.25 —i-'

2.

Yield Strength: 54.2 ksi Ult. Strength: 66 ksi Specimen Thk: 0.25 in. Specimen Width: 3.805 in. Ref: AL001

r=—[—I I Ml

10

10

o _ Ö-10-4

_c _

-5 10

■o —

xi _, — 10

10

10

AK (MPaVin) 4 10 40 100

—I—i Minn =q

I , 111,I, ' I r III!

— 10

10

io"2 u 5N Ü

u,o-I

-=ho > X!

-s — 10

— 10

4 10 40 100

AK (KsiVin)


RMS % Error


i—

0. —I-

.5 .8 1.25 2.

Figure 8.19.3.1.41 8-1206

7475 h Condition/Ht: T7351 Form: 3.5 in. Plate Specimen Type: CT Orientation: T—L Frequency: 2 — 30 Hz Environment: L.H.A.; RT

R


AK (MPaVin) 1 4 10 40 100

-I 1 I I I INI—

(1 Of 1)

- i ' i 'i'i'i r — Stress Ratio: 0.33 10

— 10

10"3E

10

— 10

o T3

10

4 10 40 100 AK (KsiVin)

AK (MPaVin) 1 4 10 40 100 t=—1—> I I I'll! 1—' M IHM—

10

10 -3

o u 10

10 ■o —

x> _fi — 10

10

10 ' i i 11 n i I I I ill

— 10

10

_0)

^Mo"2£ o

-3| —ho E

Jio >

10

— 10

4 10 40 100 AK (KsiVin)


10. 4.08 13. 15.4 16. 35.7 20.00 (max) 106.

RMS % Error 19.01


i 1 1 1 1—

RMS % Error

0. .5 .8 1.25 2.


0. .5 .8 1.25

Figure 8.19.3.1.42 8-1207

R \ 7475 | Condition/Ht: T7351 Form: 0.75 in. Plate Specimen Type: CT Orientation: T—L Frequency: 2 - 30 Hz Environment: L.H.A.; RT



4 10 40 100

10

-2 10

10

J5> —

o

6^10"+

c _

zio

-o _s r- 10

10

10

-7

- I ' I M'l'l I ' I 'l'l'l a


^~ —

— □ —

■~*

—

— _F —

— SPI

—

III I

I , l.l.l,

—

10 &

— 10 E

Jio > ■D

— 10

— 10

4 10 40 100

AK (KsiVin)


10. 13. 16. 20. 25. 26.73 (max)

0.193 0.195 0.323 0.629 1.24 2.34 4.08

13.3 27.1 57.6

150. 213.

RMS % Error

12.68


i 1 1 1 1—

0. .5 .8 1.25 2.

AK (MPaVin) 1 4 10 40 100

10

10

O

ü-10-4

_c _

Z 10" ■a \ o xi _K|—

10

10

10

- I ' I M'l'l 1 ' I M'l'l 3

— 10

10" 2ü

c; \

10" ■|

2

m" ̂ u

X)

— 10

10

4 10 40 100

AK (KsiVin)


RMS % Error


0. .5 .8 1.25

Figure 8.19.3.1.43 8-1208

Condition/Ht: T7351 Form: 0.75 in. Plate Specimen Type: CT Orientation: T-L Frequency: 30 Hz Environment: L.H.A.; RT

7475 R


AK (MPaVin) 1 4 10 40 100

(1 of 1)

-2 10

10

o c^10-4

10

"o _« - 10

10

10

- I ' I 'I'l'l I ' I Tl'l -1


— —

: —

— —

— —

— —

" 1 . M.l> 1 , 1,1,1, —

— 10

10

AK (MPaVin) 1 4 10 40 100

.2?

o

10'3E

XI

— 10

10

1 4 10 40 100 AK (KsiVin)

10

10

u oô"4

\ c _

10

-v _* — 10

-6

10

10

-7

= I ' I 'I'l'lI ' I 'I'l'l= 10

— 10

V 2 -rr

10 o \

10" ■1 -z.

i"° 10 \

a "O

10

10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (I0"6in/cycle) 6.63 (min) 0.335 7. 0.433 8. 0.782 9. 1.28

10. 1.96 13. 6.04 16. 18.7 20. 62.0 23.76 (max) 181.

RMS % Error 15.33


i 1 1 1 1—

0. .5 .8 1.25 2.

RMS % Error


0. —i 1 1—

.5 .8 1.25

Figure 8.19.3.1.44 8-1209

—H 7475 1 Condition/Ht: T7351 Form: 1 — 4 in. Plate Yield Strength: 54.2 - 59.4 ksi Specimen Type: CT Ult. Strength: 66 - 70 ksi Orientation: T—L Specimen Thk: 1 in. Stress Ratio: 0.33 Specimen Width: 3.805 in. Frequency: 2 — 20 Hz Ref: AL001;AL009


1 4 10 40 100 1 4 10 40 100

- I ' I M'l'l I ' I M'l'l — Environment: H.H.A.; R.T.

-^ 0

10 - I ' I ' ITI I ' I ' l'l'l -1

— Environment: S.T.W.; R.T. ~ 0

10

ID"2 —

IQ"2

—

— -^ 10 — 10

ID"3 — s-^ 10"3 ,-s

— io"2£ 

Z10-5

\ O

-z. 10 >

"° -s -o ^ n~* "O

106 JET 10 — : H -5

10 '. -5

10

10"7 - 10"7

-6 10

-6 10

<n-B ~ I , I .I.I. I , I,I,I, - irf8 - 1 , 1,1,1, I , LI,I, 1 4 10 40 100 1 4 10 40 100


AK (KsiVin) da/dN (10'6 n/cycle) AK (KsiVin) da/dN (10"6in/cycle) 5.70 (min) 1.37 4.33 (min) 0.400 6. 1 -89 5. 1.18 7 4.04 6. 3.93 8. 6.54 7. 8.78 9. 9-29 8. 14.3

10. 12.6 9. 18.6 13. 27.5 10. 21.9 16. 44.0 13. 40.7 18.33 (max) 74.0 15.20 (max) 78.2


Error Error o

16.82 i ii i

0. .5 .8 1.25 2. 18.23 0. .5 .8 1.25 2.

Figure 8.19.3.1.45 8-1210

Condition/Ht: T7351 Form: 0.75 in. Plate Specimen Type: CT Orientation: T—L Stress Ratio: 0.33 Environment: S.T.W.; RT

7475 F


AK (MPaVin) 1 4 10 40 100

10

10

o ^10"4

Z 10

"o _«I— 10

10

10

- I I I Tl'l I I I llilll -I — Frequency: 2. Hz —

— —

—

2L

—

- 4 A —

— m

- —

— —

n i i

I i Lhl, —

(1 of 2)

— 10

10

io"2£ o

- 10"J E

- _*"o 10

— 10

— 10

o ■a

4 10 40 100

AK (KsiVin)

10

10

.2 —

u

G^10-4

z io ■a tr

"o _K|- 10

10

10


4 10 40 100

— 10"

10

.2?

o

_ | 1 | ![l|l| | . | < t ' i'1 J


— —

— •

—

— ä —

— § —

— —

~ 1 , 1,1,1, 1 , Mil, —

-=Jio > ■D

10

— 10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (I0"6in/cycle) 7.18 (min) 8. 9.

10. 13. 16. 16.67 (max)

7.92 15.5 27.0 39.2 68.2 87.2 91.2

5.51 (min) 6. 7. 8. 9.

10. 13. 13.68 (max)

1.69 2.97 6.75

11.6 16.8 22.1 38.1 42.1

RMS % Error 18.79


-T 1 1

.5 .8 1.25 2.

RMS % Error

4.77


i 1 1 1 1—

0. .5 .8 1.25 2.

Figure 8.19.3.1.46 8-1211

F I 7475 Condition/Ht: T7351 Form: 3.5 in. Plate Specimen Type: CT Orientation: T-L Stress Ratio: 0.33 Environment: S.T.W.; RT

1

10 -2

10 -3

jD — O _

£io-+

_c _

-5 10

\ o

"C -6 I- 10

10

10

AK (MPaVin) 4 10 40 100

-I—i i i | till—

(1 of 2)

- I ' I 'I'l'l 1 — Frequency: 2. Hz

■W

I . I,I I I I I ill i i i i 111

— 10

— 10

io"2 ° o

-3 J= 10 E

10

— 10

— 10

o T3

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10'6in/cycie)

RMS % Error


2. 0. .5 .8 1.25


10

10

_0J |—

u o 10

c _

10 -5

■a ~ \ o "° -el-

10

10

10

AK (MPaVin) 4 10 40 100

1 I 'I'l'l—I ' I 'l'l'l ^

(2 of 2)

Frequency: 30. Hz

i I i I Mi i i i im

— 10

— 10

o

-3 | — 10 E

-J10">

— 10

— 10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) 4.90 (min) 5. 6. 7. 8. 8.83 (max)

1.03 1.27 4.09 6.65

11.5 14.3

RMS 55 Error

8.57


i 1 1 1 i

0. .5 .8 1.25 2.

Figure 8.19.3.1.47 8-1212

^ 7475 \ Condition/Ht: T7351 Form: 3 in. Plate Specimen Type: CT Orientation: T—L Stress Ratio: 0.5

EF Yield Strength: 61.3 ksi Ult. Strength: 72.1 ksi Specimen Thk: 0.75 in. Specimen Width: 4.998 - 5.003 in Ref: GD006

10

10

O

o 10

10

o "° -6

10

10

10

AK (MPaVin) 4 10 40 100

I I 11 INI—

(1 of 2)

I I MUM

Environment: Dry Air; R.T.; — 10 Frequency: 6. Hz


1 4 10 40 100

10

4 10 40 100

AK (KsiVin)

10

10

o

^10"+

z: 10 ■a

-o _K h- 10

10

10

— Environment: S.T.W.; R.T.; — _ Frequency: 1. Hz —

— —

— —

— rd —

— jfi -=

— J° —

III I

I I I I I ill

—

10

V -2 TZ

10 o O \

10" '1 ^^— z

in ^ u

x>

— 10

— 10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (I0"6in/cycle) 2.88 (min) 3. 3.5 4. 5. 6. 7. 8. 9. 9.11 (max)

0.165 0.159 0.186 0.285 0.748 1.65 3.26 5.98 8.59 8.76

3.17 (min) 0.199 3.5 0.241 4. 0.399 5. 1.41 6. 4.62 7. 11.7 8. 22.4 9. 33.8

10. 44.9 13. 88.1 16. 176. 20. 371. 21.86 (max) 671.

RMS % Error 10.92


0. .5 .8 1.25 2.

RMS % Error 25.85


0. .5 .8 1.25

Figure 8.19.3.1.48 8-1213

R I 7475 I Condition/Ht: T7351 Form: 3 in. Plate Specimen Type: CT Orientation: S-L Frequency: 6 Hz Environment: DRY AIR; RT


1

10

10

o fri o-+

c _

-5 10

■D —

"O _„ - 10

10

10

ÄK (MPaVin) 4 10 40 100

I ' I MTI

(1 of 2)

»-Ml M'l'l Stress Ratio: 0.1

i i i 1111 i 1 iI Mi

— 10

— 10

10"2 ° ü

,o-i

10

10

10

o XI

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) 3.31 (min) 3.5 4. 5. 6. 7. 8. 9.

10. 13. 16. 20. 20.84 (max)

0.255 0.304 0.445 0.789 1.26 1.97 3.08 4.83 7.48

24.2 55.8

142. 212.

RMS % Error

7.26


2. i 1 1 1—

0. .5 .8 1.25

10

10

10 ,-s

"O 10

10

10 .-8

AK (MPaVin) 4 10 40 100

I ' I M'l'l

(2 of 2)

I ' I M'l'l I Stress Ratio: 0.3

-a □

a — □

l.l.l. i i i iin i i 111 n

— 10

— 10

JE

u \

-3 I 10 E

10

10

10

o

4 10 40 100 AK (KsiVin)


RMS % Error


i r— . 1 1

0. .5 .8 1.25 2.

Figure 8.19.3.1.49 8-1214

H 7475 h Condition/Ht: T7351 Form: 3 in. Plate Specimen Type: CT Orientation: S-L Frequency: 1 Hz Environment: S.T.W.; RT

R Yield Strength: 57.4 ksi Ult. Strength: 70.6 ksi Specimen Thk: 0.518 in. Specimen Width: 2.555 in. Ref: GD006


10

10

JO. o

6^10"+

■Z. 10

10

10

10

AK (MPaVin) 4 10 40 100

i I I I'l'l 1—i I i I MM—

(1 Of 1)

' i 'iHi I I i I Ml

— 10

— 10

.22

10 J. :z

10

10

10

o

4 10 40 100 AK (KsiVin)

AK (MPaVin) 4 10 40 100

10

10

o ^10"4

c _

z: 10 •a tz

10

10

10

= I ' I 'I'l'l I ' I 'I'l'l =

10

V 2 -77

10 Ü

o \

10" '1 s-' 2

m" ̂ u •D

-5 — 10

10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (I0"6in/cycie) AK (KsiVin) da/dN (I0"6in/cycle) 4.23 (min) 1.02 5. 2.07 6. 4.44 7. 8.40 8. 14.6 9. 23.7

10. 35.3 13. 72.0 15.42 (max) 181.

RMS % Error 13.09


—r- .5 .8 1.25


0. —i ; 1

.5 .8 1.25

Figure 8.19.3.1.50 8-1215

R j 7475 I Condition/Ht: T7351 Form: 3 in. Plate Specimen Type: CT Orientation: S-L Frequency: 1 Hz Environment: S.T.W.; RT


AK (MPaVin) 4 10 40 100

(1 of 2)

10

10

u c^10-+

c _

10

10

10

10

- I ' I M'l'l I ' I 'I'l'l — Stress Ratio: 0.1 -3

— —

"~ —

— a

a —

_ a • □

—

—

III I

I , I,I,I,

—

AK (MPaVin) 4 10 40 100

(2 of 2)

10

io"2 u

10 Ê

-z. ■o

- idr\ a ■o

10

10

4 10 40 100 AK (KsiVin)


RMS % Error


0. —i 1 1—

.5 .8 1.25 —i-'

2.

10

10

u ^10"4

c _

TJ 10

"O _A i— 10

10

10

- I 1 I 'I'l'l 1 ' 1 'I'l'l -1


— —

— —

_ « —

~ qP -=

— -=:

~ 1 , 1,1,1, 1 , 1,1,1, —

— 10

JE 10"2£

u

10"3E

— 10

— 10

o

-6 — 10

4 10 40 100 AK (KsiVin)


10. 13. 16. 18.55 (max)

0.990 1.06 1.83 4.21 7.96

13.4 21.1 31.7 45.7

115. 219. 265.

RMS % Error

32.11


i 1 1 1 1—

0. .5 .8 1.25 2.

Figure 8.19.3.1.51 8-1216


8-1217

^ 7475 I Condition/Ht: T7351 Form: 4 in. Plate Specimen Type: CT Orientation: S-L Stress Ratio: 0.33 Frequency: 2 - 20 Hz

AK (MPaVin) 4 10 40 100

-T 1 I I I I III

(1 of 3)

I ' I 'I'l'l . ■ ■ Environment: Dry Air; R.T. 10

4 10 40 100

AK (KsiVin)


10. 13. 16. 19.93 (max)

0.911 1.14 1.84 2.61 3.70 5.52

18.0 44.8

312.

RMS % Error 27.07


i 1 1 1 1

0. .5 .8 1.25 2.

Yield Strength: 52.5 ksi Ult. Strength: 65 ksi Specimen Thk: 1 in. Specimen Width: 3.805 in. Ref: AL001

1 AK (MPaVin)

4 10 40 100

I ' I 'I'l'l

(2 of 3)

I ' I 'I'l'l . , . — Environment: H.H.A.; R.T. — 10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10_6in/cycle) 5.74 (min) 6. 7. 8. 9.

10. 13. 16. 18.53 (max)

1.85 2.45 4.52 6.07 8.05

11.6 28.8 69.4

175.

RMS % Error

16.43


i ——i 1 —i 1—

0. .5 .8 1.25 2.

Figure 8.19.3.1.52 8-1218

Condition/Ht: T7351 Form: 4 in. Plate Specimen Type: CT Orientation: S-L Stress Ratio: 0.33 Frequency: 2 - 20 Hz

7475

Yield Strength: 52.5 ksi Ult. Strength: 65 ksi Specimen Thk: 1 in. Specimen Width: 3.805 in. Ref: AL001

AK (MPaVin) 1 4 10 40 100 C=~~l—i I > I IMI—

(3 of 3)

— Environment: S.T.W.: R.T. — 10

10

10

o

o 10

10

I I i I UN

10

10

10 I I I I III I I I 11 ll

10

Ü

10 E

AK (MPaVin) 4 10 40 100

10

-3

10

10

10

o

4 10 40 100

AK (KsiVin)

10

o

^10"4

c _

■Z. 10

"o _c — 10

10

10

= I ' I 'I'MI I ' I 'l'l'l 3

(D 2 TT

10 o \

10" -I ^—' z:

m" ̂ u

■D

-5 — 10

— 10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (10_6in/cycle) 5.70 (min) 6. 7. 8. 9.

10. 11.87 (max)

5.48 6.36 9.63

13.4 17.9 23.1 36.3

RMS % Error 14.60


.5 .8 1.25 2.


0. T-

.8 1.25


—I 7475 I Condition/Ht: T7351 Form: 3.5 in. Plate Specimen Type: CT Orientation: S-L Frequency: 2 — 30 Hz Environment: L.H.A.; RT

Yield Strength: Ult. Strength: Specimen Thk: 1 in. Specimen Width: 3.546 in. Ref: AL009

1 AK (MPaVin)

4 10 40 100

-1—i I ' I <l'l—

(1 of 1)

- i ' i 'i'i'i r — Stress Ratio: 0.33 10

— 10

J52 10"2 u

ü

— 10 E

10

10

10

o

4 10 40 100

AK (KsiVin)


10. 13. 16. 17.86 (max)

0.290 0.368 0.565 0.751 1.10 1.49 2.05 2.92 4.36 6.79

24.9 45.3

129.

RMS % Error 11.84


i 1 1 1—

0. .5 .8 1.25 —!"■

2.

AK (MPaVin) 1 4 10 40 100

I ' I 'I'l'l 1 ' I 'I'I'I

10 -2

10 -3

Q) r— O

6^10-4

10 x> —

"O . — 10

10

10 i i i 1111 i i i 1111 u

10

10

o

10-3E

10

10

o XI

— 10

4 10 40 100

AK (KsiVin)


RMS % Error


0. —i 1 1—

.5 .8 1.25 —!-■

2.

Figure 8.19.3.1.53 8-1220

H 7475 f Condition/Ht: T7351 Form: 3 in. Plate Specimen Type: CT Orientation: S-L Stress Ratio: 0.5

EF Yield Strength: 57.4 ksi Ult. Strength: 70.6 ksi Specimen Thk: 0.502 - 0.503 in. Specimen Width: 2.552 - 2.555 in Ref: GD006

10

10

_03 Ü

O 10

■Z. 10

"O - - 10

10

10

AK (MPaVin) 4 10 40 100

I I i I MM 1—i I i I MM—

(1 of 2)

Environment: Dry Air; R.T.; Frequency: 6. Hz

10

4 10 40 100

AK (KsiVin)

10 -2

-3 10

O

u 10

10

10

10

10

AK (MPaVin) 4 10 40 100

I I i I MM—

(2 of 2)

I I i I MH

Environment: S.T.W. ;R.T.; ~=| 10

Frequency: 1. Hz

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10-6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 2.73 (min) 3. 3.5 4. 5. 6. 7. 8. 9.

10. 11.73 (max)

0.461 0.677 0.974 1.13 1.37 1.98 3.55 6.89

13.5 25.1 57.7

3.55 (min) 1.67 4. 2.29 5. 4.71 6. 9.18 7. 16.4 8. 26.7 9. 40.1

10. 58.2 13. 200. 13.03 (max) 203.

RMS % Error 10.62


r~ 0. .5 .8 1.25

RMS % Error 10.59


0. —i r—

.5 .8 1.25

Figure 8.19.3.1.54 8-1221

F ] 7475 I Condition/Ht: T7351 Form: 1.75 in. Plate Specimen Type: CCP (max load specified) Orientation: L—T Stress Ratio: -1 Environment: LAB AIR; RT


1

10

10

10

10

10

10

AK (MPaVin) 4 10 40 100

~1—I M I MM—

(1 of 2)

t- I ' I 'I'l'l I Frequency: 1. Hz

I I M III I I I I I I I

— 10

10

io"2 °

AK (MPaVin) 4 10 40 100

10_JE

10

10

10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) 30.23 (min) 35. 40. 50. 60. 70. 80. 81.40 (max)

132. 230. 335. 802.

1793. 4378.

11260. 11916.

RMS % Error

5.19


0. .5 .8 1.25 2.

10

10

o

u 10 \ c _

■Z. 10

10

10

10


— —

: —

: —

— w -r;

— H —

— □ " I , I, I,I, I , I, I,I,

—

(2 of 2)

10

— 10

<D 2 TT

10 u \

10" ■I —' z:

A~° m \ u

XI

10

10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) 2.59 (min) 3. 3.5 4. 5. 6. 7. 8. 8.98 (max)

0.0584 0.0662 0.0948 0.150 0.401 0.999 2.12 3.56 4.64

RMS % Error 17.74


0. —, , ,— .5 .8 1.25

Figure 8.19.3.1.55 8-1222

47 c; 1 I / 5 ' D

Condition/Ht: T7351 Form: 0.5 in. Plate Yield Strength: 59.5 ksi Specimen Type: CCP (max load specific d) Ult. Strength: 69.1 ksi Orientation: L-T Specimen Thk: 0.2 in. Frequency: 1 Hz Specimen Width: 5.99 ir . Environment: S.T.W.; RT Ref: GD006


— I ' I ' I' I'l I ' I ' I ' IM -1- — ' ' ' ' ' ' ' ' _L I i ill i i i i i 0 t till i i i i i 0

— Stress Ratio: -0.2 — 10 — 10

-2 — -2 — 10 10

— ~~~

-1 10 — —

-1 10

io-3 — ^„-* — "s^ >">..„-♦ — \ o 10 -_* o 10 \ — -3 £ \ -3 E _c 10 E c 10 E ^-^ ~ s—' —' ^^

-5 -5 Z 10 "Z 2 10 Z "O — -♦"o T3 — -4"° \ — 10 \ \ __ 10 \ o — o O — o ~° -6 XI "° -6 ■o

10 10

— -5

10 — -5

10

io-7 — io"7 - — Ill

— -6

10 — -6

10

m"8 " 1 , 1,1,1. I , I,I,I, — in"8 1 i 1 i 1111 I , I,I,I, —

1 4 10 40 100 1 4 10 .40 100 AK (KsiVin) AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (10 "6in/cycle) 5.37 (min) 0.0873 6. 0.181 7. 0.327 8. 0.566 9. 1.28

10. 3.02 13. 8.15 16. 10.4 16.99 (max) 11.0


22.40 i ii i i—

0. .5 .8 1.25 2. ■ II i

0. .5 .8 1.25 1

2.

Figure 8.19.3.1.56 8-1223

R \ 7475 h Condition/Ht: T7351 Form: 1.75 in. Plate Specimen Type: CCP (max load specified) Orientation: L-T Frequency: 5 Hz Environment: LAB AIR; RT

AK (MPaVin) 10 40 100

10 -2

-3 10

Q) —

o 5^10-+

c _

Z 10

"o _R t— 10

10

10

- I ■ I >|i|>| | ' | M'l'l -L


— —

""** —

—

— ^T

—

/ —

- I , I,I,I, I , LI,!, —

(1 of 1)

— 10

10

io"2£

10 E

10

— 10

o ■o

10

10 AK (KsiVin)

40 100

AK (KsiVin) da/dN (10"6in/cycle) 2.36 (min) 3. 4. 5. 6. 7. 8. 9.

10. 16. 20. 30. 40. 60. 80. 92.52 (max)

0.0415 0.0953 0.258 0.552 1.02 1.70 2.62 3.81 5.31

21.6 39.9

112. 251.

1312. 5120.

26086.

RMS 95 Error

19.40

Life Prediction Ratio Summary on

2. 0. —i 1 1—

.5 .8 1.25

Yield Strength: 63.2-68.8 ksi Ult. Strength: 73.7 ksi Specimen Thk: 0.201-0.202 in. Specimen Width: 12.033-12.063 in Ref: DA005;DA004

AK (MPaVin) 4 10 40 100

10

10

o 6-10-4

z: 10

10

10

10

- I ' I M'l'l 1 ' I M'l'l n

— 10

— 10

.52

Ü

— 10 E

■o

10

-6 10

10 AK (KsiVin)

40 100


RMS s Error


0. —i 1 —i—

.5 .8 1.25

Figure 8.19.3.1.57 8-1224

7475 h Condition/Ht: T7351 Form: 0.52 in. Plate Specimen Type: CCP (max stress specified) Orientation: L—T Frequency: 9 — 30 Hz Environment: H.H.A.: RT

R Yield Strength: 57 ksi Ult. Strength: Specimen Thk: 0.52 in. Specimen Width: 6 in. Ref: BL002


4 10 40 100

10

10

O

o 10 \ c _

■D 10

10

10

10

- I 'I 'I'l'l I ' I 'I'l'l _L

— Stress Ratio: 0.1 — —

— —

— —

— —

— _ ""~ —

— —

— —

— —

~ i? —

= / — ~~ —

~ I , I,I,I, I , l,!<l, =

— 10

.32 io"2£

a

- 10"° E

X!

— 10

10

AK (MPaVin) 1 4 10 40 100

4 10 40 100 AK (KsiVin)

10

10

U u 10

c _

Z 10

\ D

10

10

10

= I ' I 'I'l'l I ' I 'I'l'l -1

— -

~ —

— — —

— — —

— =

— —

— -

zz —

— =

— —

- I , I,I,I, 1 ,1,1,1, —

— 10

io"2^ o \

-3 | io E

— 10

— 10

a

10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10'6in/cycle) AK (KsiVin) da/dN (I0"6in/cycle) 3.99 (min) 4. 5. 5.96 (max)

0.166 0.166 0.257 0.494

RMS % Error

9.45

Life Prediction Ratio Summary HO a

0. .5 .8 1.25 2.

RMS % Error


i 1 1 1 1—

0. .5 .8 1.25 2.

Figure 8.19.3.1.58 8-1225

R \ 7475 h- Condition/Ht: T7351 Form: 0.52 in. Plate Specimen Type: CCP (max stress specified) Orientation: L-T Frequency: 9 — 30 Hz Environment: H.H.A.; RT

1

10

ID"3

O

o^10-4

10

10

10

10

-7

AK (MPaVin) 4 10 40 100

1—i M I MM—

(1 of 1)

- I ' I 'I'l'l — Stress Ratio: 0.1

■ i ■ i in

10

— 10

o \

-3 | — 10 E

10

10

10

o

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) 9.92 (min)

10. 13. 16. 20. 25. 25.08 (max)

9.94 10.2 25.5 51.1

100. 204. 206.

RMS % Error 10.16

Life Prediction Ratio Summary cm

0. —i 1 1—

.5 .8 1.25

Yield Strength: 57 ksi Ult. Strength: Specimen Thk: 0.5 in. Specimen Width: 4 in. Ref: BL002

AK (MPaVin) 1 4 10 40 100 P=-1—> I I Mill—

10

-3 10

JO) u _

u 10

_c |_

-5 10

■a —

10

10

10

i l ilHi rr

i 1111ii i 111in

10

10

io"2^ u \

-3 | 10 E

10

10

10

o •o

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycie)

RMS % Error


0. —i 1 1—

.5 .8 1.25

Figure 8.19.3.1.59 8-1226

Condition/Ht: T7351 Form: 0.5 in. Plate Specimen Type: CCP (max load specified) Orientation: L—T Stress Ratio: 0.1 Environment: S.T.W.; RT

7475 h F

Yield Strength: 59.5 ksi Ult. Strength: 69.1 ksi Specimen Thk: 0.199 - 0.205 in. Specimen Width: 5.99 — 6 in. Ref: GD006


4 10 40 100

10

10

ü

ü 10

c _

2 10-5

-u tz

10

10

10

- I i I >|i|i| | i | Tl'l -1


— —

— —

— —

— / —

— n —

" I , l.l.l, I . I,I.I, —

10

0)

io"2£

— 10 E

- -A."™ 10

— 10

— 10

o


4 10 40 100

4 10 40 100

AK (KsiVin)

10

la"3

u 6-10-4

c _

Z 10

"o _K I— 10

10

10

= I ' I 'I'll 1 ' 1 'I'l'l -1

~~ Frequency: 6. Hz —

— —

— —

f —

- i —

-. t —

' i , I,I,I, 1 , 1,1,1, —

— 10

a; 2 TT

10 o \

10" 'I — -z.

m" ̂ u

■D

10

10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (10'6in/cycle) 3.77 (min) 4. 5. 6. 7. 8. 9.

10. 13. 13.62 (max)

0.208 0.225 0.720 2.72 6.44 8.78

10.2 13.3 45.2 41.3

6.13 (min) 7. 8. 9.

10. 13. 16. 16.61 (max)

0.285 0.336 1.03 3.52 8.55

24.1 36.2 33.3

RMS % Error

14.08


i 1 1 1 1—

0. .5 .8 1.25 2.

RMS % Error

8.39


i—

0. —r~ .5

—j-

.8 1.25 2.

Figure 8.19.3.1.60 8-1227

R \ 7475 I : Condition/Ht: T7351 Form: 0.52 in. Plate Specimen Type: CCP (max stress specified) Orientation: L-T Frequency: 5.5 — 33 Hz Environment: H.H.A.; RT

1

10

10

o

Ü 10

10

XJ 10

10

10

-6

AK (MPaVin) 4 10 40 100

-i—l I I I MM

(1 Of 1)

- i ■ i 'i'i'i r - Stress Ratio: 0.25

4-

I ■ I.I.I. i i 11 in

10

— 10

— 10 -2Ö

Ü

—410 E

10

10

10

o. "a

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (I0"6in/cycie) 5.05 (min) 6. 6.65 (max)

0.853 1.23 2.56

RMS % Error

9.97


, 1 1 1 1

.5 .8 1.25 2. 0.


AK (MPaVin) 1 4 10 40 100

- I ' I 'I'I'I 1 ' I 'I'I'I =1 10"

10

10

_a; i— u

^10"4

c _

2 10

"a , — 10

10

10

- I ' I 'I'I'I—I ' I 'I'I'I 3

<o 2 "77

10 u \

10" 'I ^-^ z

m" ̂ u

"O

10

10

4 10 40 100 AK (KsiVin)


RMS % Error


-r- .5

—i 1—

.8 1.25

Figure 8.19.3.1.61 8-1228

7475 Condition/Ht: T7351 Form: 0.52 in. Plate Specimen Type: CCP (max stress specified) Orientation: L—T Frequency: 5.5 — 33 Hz Environment: H.H.A.; RT

R


AK (MPaVin) 4 10 40 100

-2 10

10

o o 10

10

10

10

10

-5


— —

— —

~~ I

o —

_ C

—

— —

~ I , I, I,I, I , I,I,I, —

(1 of 1)

10

10

10"2^ o

,0*1

10

— 10

— 10

"O

o

4 10 40 100 AK (KsiVin)

10

10

CJ

u 10

10

-o 10

10

10

AK (MPaVin) 4 10 40 100

1 I TIM 1 ' I Tl'l

' I I III! '

— 10

— 10

o \

-3 | 10 E

-=lio > ■o

10

10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (I0"6in/cycle) AK (KsiVin) da/dN (10"6in/cycle)

RMS x Error


0. .5 .8 1.25

RMS % Error


0. —i 1 1—

.5 .8 1.25

Figure 8.19.3.1.62 8-1229

R ^ 7475 I Condition/Ht: T7351 Form: 0.52 in. Plate Specimen Type: CCP (max stress specified) Orientation: L—T Frequency: 5.5 - 33 Hz Environment: H.H.A.; RT

AK (MPaVin) 4 10 40 100

-2 10

10

O

6-10-+

_c l_

ZIG"5

\ - o xi _, —

— 10

10

10

10

-"I ' I 'I'l'l I ' I 'I'l'l _L

— Stress Ratio: 0.25 — — - — — — — — - — — — — — - — — — — — - — — — — — - — — — Jr —

~ +-# -

— m — — Iff —

" I , LLI, I , I.!.!, -

(1 of 1)

— 10

— 10

■2Ö

— 10 E

-J10>

10

10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (1CT6in/cycle) 2.50 (min) 3. 3.5 4. 4.73 (max)

0.0554 0.0973 0.158 0.237 0.378

RMS SB Error

51.17

Life Prediction Ratio Summary □ CA +

i 1 1 1 1—

0. .5 .8 1.25 2.


AK (MPaVin) 4 10 40 100

10

-3 10

_Q) —

o _ O-10-4

c _

10 TJ

10

10

10

- I ' I 'I'l'l 1 ' I 'I'l'l 3

— 10

— 10

jo io"2 °

o

-3 ± 10 E

- _.i"0 — 10

10

o

4 10 40 100 AK (KsiVin)


RMS % Error


x—

0. —i 1 \—

.5 .8 1.25

Figure 8.19.3.1.63 8-1230

Condition/Ht: T7351 Form: 0.52 in. Plate Specimen Type: CCP (max stress specified) Orientation: L—T Frequency: 5.5 — 33 Hz Environment: H.H.A.; RT

7475 R


10

10

ü

6^10"+

-5 10

10

10

10

-7

AK (MPaVin) 4 10 40 100

i Minn 1—i i > i nn—

(1 of 1)

Stress Ratio: 0.25

i i i 11 n i I i I Hi

— 10

— 10

io"2£ o

10

10

10

o

AK (MPaVin) 4 10 40 100

,-2 10

10

u

o^10-4

c _

10

"o _* -

4 10 40 100 AK (KsiVin)

10

10

10

= I ' I ' ITI I ' I ' l'l'l -1

o \

10 E

— 10 \ o

— 10

10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 2.27 (min) 2.5 3. 3.5 4. 4.44 (max)

0.00595 0.0253 0.116 0.206 0.298 0.459

RMS % Error

>100.0

Life Prediction Ratio Summary A o □ +

RMS % Error

0. .5 .8 1.25 2.


0. .5 .8 1.25

Figure 8.19.3.1.64 8-1231

R 1 7475 I Condition/Ht: T7351 Form: 0.5 in. Plate Specimen Type: CCP (max load specified) Orientation: L-T Frequency: 1 Hz Environment: S.T.W.; RT

1

-2 10

10

a> — o 3*10"+

10

10

-7 10

10

AK (MPaVin) 4 10 40 100

-|—i I i I UM—

(1 of 1)

= I ' I MTI I — Stress Ratio: 0.3 — 10

— 10

10"2 °

10 sE

10

10

10

o ■D

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (I0"6in/cycle) 3.42 (min) 3.5 4. 5. " 6. 7. 8. 9.

10. 12.09 (max)

0.168 0.163 0.197 0.677 2.64 7.45

15.0 23.2 30.2 86.3

RMS % Error 23.07


0. .5 .8 1.25

Yield Strength: 59.5 ksi Ult. Strength: 69.1 ksi Specimen Thk: 0.202 in. Specimen Width: 6 in. Ref: GD006

AK (MPaVin) 1 4 10 40 100

-2 10

10

_a) — u

o^10-+

c _

-5 Z 10 ■o

xi _K — 10

10

10

= I ' I 'I'M I ' I M'l'l a

10

(U

10" 2ö

o \

10" ■I —' z

1"° m '\ u

■o

— 10

— 10

4 10 40 100

AK (KsiVin)


RMS % Error


0. —i \ 1—

.5 .8 1.25

Figure 8.19.3.1.65 8-1232

7475 Condition/Ht: T7351 Form: 0.52 in. Plate Specimen Type: CCP (max stress specified) Orientation: L-T Frequency: 6 — 33 Hz Environment: H.HA; RT

R


AK (MPaVin) 4 10 40 100

(1 of 1)

10

10

o ü 10 \ c _

10

10

10

10

- I I I 'I'l'l I ' I 'I'l'l a


— —

— —

- / —

— —

— —

Ill I

I , I,I,I, —

— 10

.22

- icT E

-JlO> ■o

— 10

— 10

4 10 40 100

AK (KsiVin)

AK (MPaVin) 1 4 10 40 100 C=~I—I I I I MM—

10

10

u o 10

10 "o ~

10

10

10

• I i I MH

i i i nil ' i

— 10

— 10

J2 10"2 °

o

,0^1

10

10

10

o

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 9.78 (min)

10. 13. 13.90 (max)

18.9 20.6 48.9 71.7

RMS % Error

9.45

Life Prediction Ratio Summary ei e

i \ 1 1 1—

0. .5 .8 1.25 2.

RMS % Error


r~ 0.

—1 1 1

.5 .8 1.25 2.

Figure 8.19.3.1.66 8-1233

R ^ 7475 I Condition/Ht: T7351 Form: 0.52 in. Plate Specimen Type: CCP (max stress specified) Orientation: L-T Frequency: 6 — 33 Hz Environment: H.H.A.; RT

AK (MPaVin) 1 4 10 40 100

-1—l I l I MM—

(1 Of 1)

i- I ' I Tl'l I Stress Ratio: 0.5

10

10

ü

6^10-+

10

10

10

10 i Mini ■ i i 11ii

— 10

— 10

io-2 u

10 E

10

10

10

o

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) 1.84 (min) 2. 2.5 2.80 (max)

0.0310 0.0473 0.106 0.145

RMS % Error 19.64

Life Prediction Ratio Summary O-tAQ

i 1 1 1 1—

2. 0. .5 .8 1.25


AK (MPaVin) 1 4 10 40 100

*— I * I U'l'l 1 ' I Tl'l

10

10

u

o 10

■Z. 10

-O -A ~ 10

10

10 Mill I I I 11II

— 10

10

-5>

-3 | io E

10

10

10

-o

o

4 10 40 100

AK (KsiVin)


RMS % Error


0. —i 1 1—

.5 .8 .1.25

Figure 8.19.3.1.67

8-1234

Condition/Ht: T7351 Form: 0.5 in. Plate Specimen Type: CCP (max load specified) Orientation: L-T Frequency: 1 Hz Environment: S.T.W.; RT

^ 7475 r


R

AK (MPaVin) 4 10 40 100

-2 10

ID"3

JP I— Ü

o 10 \ c _

-5 10

-o _« - 10

10

10

= I ' I' I'l'l I ' I 'PI'I — Stress Ratio: 0.5

_L

—

— -

^ —

— =

— —

— rT ~^_

— T —

— T - — — j —

— ja =

^ —

" I , I,I,I, I < Mil, =

(1 of 1)

10

io"2o Ü \

-3 I 10 £

10

— 10

— 10

o

AK (MPaVin) 1 4 10 40 100

10

10

ja; — u 6^10-4

c _

TJ 10

4 10 40 100

AK (KsiVin)

"o _K I— 10

10

10

= I ' I 'I'l'l I ' I 'I'l'l 3

10

10'2^ o

10 E

-=|io >

-5 — 10

— 10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (I0"6in/cycle) 3.05 (min) 3.5 4. 5. 6. 7. 8. 9.

10. 10.13 (max)

0.113 0.108 0.383 4.57

10.4 16.2 25.6 34.9 43.7 45.0

RMS % Error 14.74


0. .5 .8 1.25


0. -r- .5 .8 1.25

Figure 8.19.3.1.68 8-1235

H 7475 Condition/Ht: T7351 Form: 1.25 in. Plate Specimen Type: WOL Orientation: L-T Stress Ratio: 0.02 Frequency: 0.1 — 20 Hz


AK (MPaVin) 1 4 10 40 100

-IM M'l'l 1 ' I TIM — Environment: Lab Air; R.T. — 10

(1 of 3)

■3

— 10

-3 r= 10 E

10 o X3

-5 — 10

10

4 10 40 100 AK (KsiVin)


10. 13. 16. 20. 25. 30. 35. 40. 50. 57.16 (max)

0.145 0.209 0.490 0.982 1.76 2.88 4.39

11.6 22.5 41.0 70.3

114. 189. 370.

2576. 6220.

RMS % Error 21.07


.5 .8 1.25

AK (MPaVin) 4 10 40 100

i I > 11 IM

(2 of 3)

4 10 40 100 AK (KsiVin)


10. 13. 16. 20. 25. 30. 35. 40. 50. 58.69 (max)

0.345 0.456 0.715 1.17 1.88 2.95 4.46

12.2 24.4 43.1 69.3

113. 201. 388.

1633. 6795.

RMS % Error 22.05


0. —i 1 1—

.5 .8 1.25 2.

Figure 8.19.3.1.69 8-1236

Condition/Ht: T7351 Form: 1.25 in. Plate Specimen Type: WOL Orientation: L—T Stress Ratio: 0.02 Frequency: 0.1 - 20 Hz

^ 7475 h



4 10 40 100 I I i I IHI 1—i I M IM!

AK (MPaVin) 4 10 40 100

10

10

o

^10"4

\ c L_

-Z. 10 XI

o XI

4 10 40 100

AK (KsiVin)

10

10

10

= I ' I TIMI ' I 'ITI= 10

10

<D

10~ 2Ö

O \

,E 10 b v-'

z m" ̂ u

XI

— 10

10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10_6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 4.14 (min) 5. 6. 7. 8. 9.

10. 13. 16. 20. 25. 30. 35. 40. 50. 54.23 (max)

0.195 0.433 0.921 1.72 2.90 4.55 6.73

16.9 32.8 62.6

116. 193. 327. 649.

4415. 10659.

RMS % Error 26.38


-1 r-

.5 .8 1.25 2.


r" 0. .5 .8 1.25


R -I 7475 I Condition/Ht: T7351 Form: 1.5-4 in. Plate Specimen Type: WOL Orientation: L-T Frequency: 25 Hz Environment: H.H.A.; RT

1 AK (MPaVin)

4 10 40 100 1—i I i I MM—

(1 of 1)

i ' i 'i'i'i r — Stress Ratio: 0.33 10

— 10

10"2£ u

— 10 E

10

10

10

-a o

4 10 40 100

AK (KsiVin)


10. 13. 16. 20. 23.17 (max)

0.0140 0.0627 0.164 0.306 0.478 0.915 1.57 2.68 4.68 8.05

13.0 33.1 48.6 87.6

138.

RMS % Error

19.84


0. .5 .8 1.25 2.

Yield Strength: 64 ksi Ult. Strength: 74 ksi Specimen Thk: 0.245 - 0.251 in. Specimen Width: 2.548 - 2.553 in Ref: AL009

10

10

u u 10

c _

10 x> — o X

10

10

10

AK (MPaVin) 4 10 40 100

i I i I 'Ml 1—i M I'I'I—

1 I I I III ' i i i in

— 10

— 10

10 a;

-2Ö O

- 10"J E

10

— 10

D XI

10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10~6 in/cycle)

RMS % Error


0. .5 .8 1.25 —i-'

2.

Figure 8.19.3.1.70

8-1238

■\ 7475 Condition/Ht: T76 Form: 0.09 in. Sheet Specimen Type: CCP (max load specified) Orientation: T—L Frequency: 13.3 Hz Environment: LAB AIR; RT

R

Yield Strength: 67 ksi Ult. Strength: 76.2 ksi Specimen Thk: 0.091 in. Specimen Width: 4 in. Ref: 86213

AK (MPaVin) 1 4 10 40 100

10

10

_a> — ü

ü 10

c _

-Z. 10

-o _K r- 10

10

10

- I ' I M'l'l I ' I Tl'l _L

— Stress Ratio: 0.33 — — -

— - — — — — — - — — — — — - — Jj — — Jff —

— ffr - _ Q — — — — - — — — -=

" I . M.li I , I,LI, -

(1 of 1)

10

0)

o

10"JE

10

10

o

— 10

4 10 40 100

AK (KsiVin)

AK (MPaVin) 4 10 40 100

10

10

JD —

6^10-4

c _

10

10

10

10

_ , r | .|.|., | . , .|.n _L

10

10

10~ 2ü >>

u \

10" •I ^-^ zz.

m" ̂ u

XJ

-5 — 10

— 10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10'6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 5.18 (min) 6. 7. 8. 9.

10. 13. 16. 19.87 (max)

1.25 2.56 4.10 5.49 7.09 9.29

19.1 31.2 45.3

RMS % Error

7.11


—i 1 1 1—

.5 .8 1.25 2.

RMS % Error

0.


0. —i 1 1—

.5 .8 1.25

Figure 8.19.3.1.71 8-1239

R 1 7475 I Condition/Ht: T761 Form: 0.08 in. Sheet Specimen Type: CT Orientation: L-T Frequency: 1 Hz Environment: DIST WATER; RT

Yield Strength: 63.2 - 63.7 ksi Ult. Strength: 73.4 ksi Specimen Thk: 0.074 - 0.077 in. Specimen Width: 1.498 - 1.502 in Ref: DA004;DA005

AK (MPaVin) 4 10 40 100

(1 of 2)

10

ID"3

ja> _ o

o 10

c _

10

"o _c — 10

10

10 .-8

= I ' I — Stress

'I'l'l I ' I M'l'l Ratio: 0.05

L

— —

— —

— —

— — — - ~ —

— — —- —~

— —

- I , I,I,I, I i frill)

—

10

— <u 2 T.

10" °

-3 Jr 10 E

10

10

o

— 10

4 10 40 . 100

AK (KsiVin)

AK (KsiVin) da/dN (10'6in/cycle) 5.12 (min) 6. 7. 8. 9.

10. 13. 16. 20. 25. 30. 32.45 (max)

0.770 1.46 2.49 3.76 5.27 7.04

14.5 26.7 52.9

110. 217. 291.

RMS % Error

5.55


0. .5 .8 1.25

AK (MPaVin) 4 10 40 100

(2 of 2)

10

10

u

U 10

z: 10

•a 10

10

10

- I i I M'l'l I ' I M'l'l a


— —

— —

: j —

— Js¥ —

_ yT —

I i I i I i li I , I, I,I,

—

io'2^

10 E

Jio >

— 10

10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) 1.44 (min) 1.6 2. 2.5 3. 3.5 4. 5. 6. 7. 8. 9. 9.16 (max)

0.0537 0.0867 0.201 0.396 0.651 0.991 1.46 3.02 5.44 8.44

12.6 21.0 23.2

RMS % Error 19.15


i 1 1 1 1—

0. .5 .8 1.25 2.

Figure 8.19.3.1.72

8-1240

7475 r Condition/Ht: T761 Form: 0.09 in. Sheet Specimen Type: CT Orientation: L—T Frequency: 20 Hz Environment: LAB AIR; RT

R

Yield Strength: 62.2 ksi Ult. Strength: 70.2 ksi Specimen Thk: 0.089 in. Specimen Width: 1.493 - 1.499 in Ref: 85363

AK (MPaVin) 4 10 40 100

10

10

o ^10"4

Z 10

"o _c — 10

10

10

- I ■ I llll'l I I I Tl'l a — Stress Ratio: 0.1 —

— —

— o

—

— —

— ß —

— —

Ill I

I , I,I,I, —

(1 of i;

10

10

io"2 u

Ü

10 £

AK (MPaVin) 4 10 40 100

10

10

10

10

T3

o X>

— 10

4 10 40 100 AK (KsiVin)

o

c _

Z 10

10

10

10

= I ' I 'ITII ' I M'l'l n

10

— 10

a> 2 TT

10 o \

10~ =1 v-' z

m~ ̂ u

x>

— 10

— 10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (I0"6in/cycle) AK (KsiVin) . da/dN (I0"6in/cycle) 8.75 (min) 3.53 9. 3.93

10. 5.65 13. 12.4 16. 24.3 20. 32.5 25. 71.5 27.73 (max) 107.

RMS % Error

20.53

Life Prediction Ratio Summary SB

i 1 1 1 1

RMS ! Error

0. .5 .8 1.25 2.


r-

0. —I 1 1—

.5 .8 1.25

Figure 8.19.3.1.73 8-1241

-H 7475 I Condition/Ht: T761 Form: 0.09 in. Sheet Specimen Type: CT Orientation: T—L Frequency: 20 Hz Environment: LAB AIR; RT

AK (MPaVin) 4 10 40 100

> I i I MM

(1 of 1)

4 10 40 100

AK (KsiVin)


10. 13. 16. 20. 25. 29.38 (max)

2.39 2.69 4.27

12.5 23.5 43.7 81.1

142.

RMS % Error

18.04


i 1 1 1 1—

.5 .8 1.25 2. 0.


10

-3 10

o _ 6^10-4

-5 10

■o

10

10

10

AK (MPaVin) 4 10 40 100

I I I llll— I M I mi

I I I I 111 I I I 11II

— 10

10

a; 10~

2Ö ü

\

10~ ■1 —' 2

m" ̂ u

XJ

10

10

4 10 40 100

AK (KsiVin)


RMS % Error


0. —i 1 r

.5 .8 1.25

Figure 8.19.3.1.74 8-1242

Condition/Ht: T761 Form: 0.08 in. Sheet Specimen Type: CCP (max load specified) Orientation: L—T Frequency: 1 Hz Environment: DIST WATER; RT

7475


R

AK (MPaVin) 4 10 40 100

10

10

o 5*10"+

c _

Z 10 XI tz

-o _e — 10

10

10

-7

- I I I'I'I'l I ' I 'l'l'l -1


— —

— —

— —

— 0 - —

— —

1 i 1 i lili 1 , 1,1,1, —

(1 of 2)

10

10

— io"2£

o

- io'° E

X)

XI

10

— 10


4 10 40 100

10

10

10

o

u^10-4

\ c _

2 10 XI

"O _s —

4 10 40 100

AK (KsiVin)

10

10

10

- I I I <lllll I I I Ij.jlj J.


— —

— -=

— -=:

— JF —

— -=

" I , I, I,I, I , l<l,l, -=

— 10

<D 2 TT

10 U

O \

10" '1 v-' -z.

m" ̂ u x>

-5 10

— 10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10-6in/cycie) AK (KsiVin) da/dN (10"6in/cycle) 6.70 (min) 7. 8. 9.

10. 13. 16. 20. 20.63 (max)

3.11 3.29 4.25 5.74 7.85

18.6 36.1 79.1 89.7

3.99 (min) 4. 5. 6. 7. 8. 9. 9.40 (max)

1.99 2.02 3.74 5.63 8.60

13.5 19.7 22.2

RMS SB Error

6.23


i

0. -T 1 1—

.5 .8 1.25

RMS % Error

7.02


i 1 1 1 1—

.5 .8 1.25 0. 2.

Figure 8.19.3.1.75

8-1243

R I 7475 I Condition/Ht: T761 Form: 0.08 in. Sheet Specimen Type: CCP (max toad specified) Orientation: L-T Frequency: 1 Hz Environment: DiST WATER; RT

Yield Strength: 63.2 ksi Ult. Strength: Specimen Thk: 0.077 in. Specimen Width: 3.951 - Ref: DA005

3.953 in

AK (MPaVin) 1 4 10 40 100 t=—\—i I i |i|i|

(1 of 2)

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/d.N (I0"6in/cycle) 6.61 (min) 7. 8. 9.

10. 13. 16. 19.49 (max)

2.29 2.65 3.79 5.32 7.27

16.0 30.1 64.9

RMS % Error

3.73


i 1 1 1 1—

.5 .8 1.25 2.

AK (MPaVin) 4 10 40 100

(2 of 2)

10

-3 10

o o^10-4

10

"o _K — 10

10

10

_ I I I 'I'l'l I ' I 'l'l'l J


— —

— —

: . —

— cP^ -=:

^~ —

- I , LI,I, I , I,I,I,

-=

10

10

<D

10" 2ö

u \

10" ■I 2

m" ̂ u

T3

10

— 10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) 4.32 (min) 5. 6. 7. 8. 9. 9.85 (max)

2.10 2.72 4.35 6.91

10.3 14.3 18.9

RMS % Error

2.19


0. .5 .8 1.25 2.

Figure 8.19.3.1.76 8-1244

Condition/Ht: T761 Form: 0.08 in. Sheet Specimen Type: CCP (max load specified) Orientation: L—T Stress Ratio: 0.1 Environment: LAB AIR; RT

7475 F

Yield Strength: 63.7 ksi Ult. Strength: 73.4 ksi Specimen Thk: 0.073 - 0.074 in. Specimen Width: 11.977 - 12.008 Ref: DA004

in.

AK (MPaVin) 4 10 40 100

(1 of 2)

10

10

o

^10"+

c _

z: 10 -o tz

10

10

10

- Frequency: 3. Hz —

—

/

—

— /

—

— / —

— - —

— —

" 1 ,1,1,1, 1 , M:l, —

— 10

Ü


4 10 40 100

10

10

o

— 10

4 10 40 100 AK (KsiVin)

10

10

o

(J 10

10

■o _c - 10

10

10

- I I I 'I'l'l I I I llllll J.


— —

— -=

— -=:

_ n —

— a /□ -=:

— □ " I , I,I,I, I , I . t.l,

-=

— 10

io"2^ o

-=|10 >

— 10

— 10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 17.67 (min) 20. 25. 30. 35. 40. 50. 60. 70. 79.15 (max)

36.5 44.0 75.0

131. 216. 347. 994.

2852. 5560.

20744.

2.27 (min) 2.5 3. 3.5 4. 5. 6. 7. 8. 9.

10. 13. 16. 20. 25. 30. 32.71 (max)

0.0793 0.0908 0.130 0.193 0.287 0.601 1.16 2.04 3.32 5.06 7.27

16.4 27.4 40.6 62.3

118. 186.

RMS % Error

8.69


0. —i 1 1—

.5 .8 1.25

RMS % Error 33.04


r- 0. .5

-r~ .8 1.25

Figure 8.19.3.1.77 8-1245

R ^ 7475 \— Condition/Ht: T761 Form: 0.08 in. Sheet Specimen Type: CCP (max load specified) Orientation: L-T Frequency: 7 Hz Environment: LAB AIR; RT

1 AK (MPaVin)

4 10 40 100 i I i I 'HI ^

(1 of 1)

- I ' I 'IM' — Stress Ratio: 0.1

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10-6in/cycle) 2.17 (min) 2.5 3. 3.5 4. 5. 6. 7. 8. 9.

10. 16. 20. 30. 37.09 (max)

0.0451 0.0734 0.140 0.244 0.398 0.895 1.71 2.89 4.47 • 6.44 8.75

26.4 39.9

105. 293.

RMS % Error

7.43


i 1 1 i 1

0. .5 .8 1.25 2.


10

10

o frio-4

c _

10 -s

■a ~

10

10

10

AK (MPaVin) 4 10 40 100

i I i MHI 1—i I i I MM

i Mini ' I I 11II

10

— 10

<o o"

2 ü

o \

o" 4 '^-s

z ^ n

U -a

10

— 10

4 10 40 100

AK (KsiVin)


RMS % Error


0. .5 .8 1.25

Figure 8.19.3.1.78

8-1246


8-1247

■\ 7475 Condition/Ht: T761 Form: 0.13 in. Sheet Specimen Type: CCP (max load specified) Orientation: L—T Stress Ratio: 0.33 Frequency: 13.3 Hz

1 AK (MPaVin)

4 10 40 100 I I II I Ml

(1 of 3)

I ' I 'IT — Environment: Dry Air; R.T.

— 10

10

o \

-»! 10 E

10 o

10

10

4 10 40 100

AK (KsiVin)


10. 13. 16. 20. 20.38 (max)

2.06 3.10 4.74 6.46 8.66

18.9 25.0 59.2 64.0

RMS % Error

3.98


0. —r~ .5 .8 1.25


AK (MPaVin) 4 10 40 100

10

10"

o >^ ■.„-■* u 10

■Z. 10 "a

X> _c — 10

10

10

- I i I 'I'M 1 ' 1 'I'l'l a


— —

— —

_— -=

— IT -=

_. -=

" 1 , 1,1,1, 1 i 1 i 11 li

—

(2 of 3)

10

— 10

io"2 " o

10 E

_ io_,\ o "a

— 10

— 10

4 10 40 100

AK (KsiVin)


10. 13. 16. 17.61 (max)

2.98 5.12 8.45

12.9 19.2 42.5 68.7 95.5

RMS % Error

3.67


i 1 r— 1 1

0. .5 .8 1.25 2.

Figure 8.19.3.1.79 8-1248

Condition/Ht: T761 Form: 0.13 in. Sheet Specimen Type: CCP (max load specified) Orientation: L—T Stress Ratio: 0.33 Frequency: 13.3 Hz

^ 7475 r



4 10 40 100

I ' I Tl'l I ' I M'l'l — Environment: Salt Fog; R.T. — 10

-2 10

10

o fri o-4

10

10

10

10

-5

I I 11 III ' I '

— 10

10"2 u

ü

-3| 10 E

10

10

10

AK (MPaVin) 1 4 10 40 100

o T3

4 10 40 100 AK (KsiVin)

10

10

o o 10 \ c _

Z 10

"O _c |— 10

10

10

= I ' I ' I'l'l I ' I ■ ITI -*■

— 10

io"2^ o

10

— 10

— 10

o

4 10 40 100

AK (KsiVin)


10. 13. 16. 20. 21.42 (max)

9.76 15.2 23.7 30.2 35.8 64.1

116. 185. 225.

RMS % Error

4.78


i 1 1 1 1—

0. .5 .8 1.25 2.

RMS % Error


0. -1 1 1—

.5 .8 1.25


R ^ 7475 I : Condition/Ht: T761 Form: 0.08 in. Sheet Specimen Type: CCP (max load specified) Orientation: L-T Frequency: 5 Hz Environment: LAB AIR; RT


1

AK (MPaVin) 4 10 40 100

r I i | 1111

(1 of 1)

= I ' I M'l'l — Stress Ratio: 0.4

4 10 40 100

AK (KsiVin)


10. 16. 20. 30. 34.70 (max)

0.0467 0.0707 0.140 0.259 0.447 0.722 1.61 3.01 4.97 7.42

10.3 13.3 34.6 58.9

241. 531.

RMS % Error

9.58


0. .5 .8 1.25

AK (MPaVin) 1 4 10 40 100

b I ' I M'l'l I ' I M'l'l

10 -2

10 -3

o _

10 T3 ~

"O -A — 10

10

10 I I I III ' I I 11II

10

10

o

10'3E

-=ho > ■o

— 10

— 10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10_6in/cycle)

RMS % Error


—i 1 1—

.5 .8 1.25

Figure 8.19.3.1.80 8-1250

Condition/Ht: T761 Form: 0.08 in. Sheet Specimen Type: CCP (max load specified) Orientation: L—T Frequency: 3 — 15 Hz Environment: LAB AIR; RT

7475 R

Yield Strength: 63.7 ksi Ult. Strength: 73.4 ksi Specimen Thk: 0.072 in. Specimen Width: 12 - 12.01 in. Ref: DA004

AK (MPaVin) 1 4 10 40 100

-2 10

10

_S2 ü

ü 10

■Z. 10 T3 CZ

"O _c - 10

10

10

-7

- I I I Ijljl, I I I >lllll _l


— —

: —

: —

- /

—

: / —

- I , LIJ, I , I,I,I, —

(1 of 2)

10

_0> O

Ü

— 10

— 10

— 10

-Jl0 >

— 10

— 10

AK (MPaVin) 4 10 40 100

(2 of 2)

4 10 40 100

AK (KsiVin)

10

10

o

O 10

c _

■Z. 10 ~o t:

10

10

10

= I ' I 'I'l'l I ' I M'l'l — Stress Ratio: 0.8

-i

— — —

— =

— —

~—

™ —

— A =

— rtfif —

— / _

IZ / —

— X _

— 1 —

- 1 , LM, 1 tihi

—

— 10

o \

-3 | 10 E

■D

- 10 \

— 10

10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (I0"6in/cycle) 1.85 (min) 2. 3. 4. 5. 6. 7. 8. 9.

10. 16. 20. 30. 40. 53.82 (max)

0.0560 0.0685 0.250 0.733 1.74 3.50 6.17 9.81

14.4 19.6 52.3 69.1

216. 877.

4347.

2.39 (min) 2.5 3. 3.5 4. 5. 6. 7. 8. 9.

10. 13. 16. 18.96 (max)

0.0507 0.0650 0.175 0.386 0.738 2.02 4.24 7.52

11.8 17.0 23.1 45.5 74.0

110.

RMS % Error

8.53


i 1 1 1

0. .5 .8 1.25 —i-'

2.

RMS 55 Error 16.72


0. .5 -r- .8 1.25

Figure 8.19.3.1.81 8-1251

R \ 7475 I Condition/Ht: T761 Form: 0.08 in. Sheet Specimen Type: CCP (max load specified) Orientation: L—T Frequency: 10 Hz Environment: LAB AIR; RT


AK (MPaVin) 4 10 40 100

10 -2

-3 10

_Q) —

O

o^10-4

c _

TJ 10

10

10

10

- I ' I M'l'l I ' I M'l'l _L

— Stress Ratio: 0.8 — — - — — — — — - — — — — — - — — — — — £tr - — dW — — (MSr — — ■ <S - — -ra — — J — — .7? - ~ iW — — —

" I , i .I.I, I , I,I,I, -

(1 of 1)

10

10 •2Ö

"-•5 /— 10 E

-Jio >

— 10

— 10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) 1.55 (min) 1.6 2. 2.5 3. 3.5 4. 5. 6; 7. 8. 9.

10. 13. 16. 17.01 (max)

0.0553 0.0607 0.126 0.296 0.615 1.13 1.84 3.67 5.48 7.12 9.03

11.8 16.0 36.3 59.8 78.4

RMS % Error

7.83


2. 0. .5 .8 1.25

-2 10

10

CJ

o 10

10 T3 —

"O _K — 10

10

10

AK (MPaVin) 4 10 40 100

1 I M'l'l—^ i i 11Hi TT

U ' i i mi I I I I III

— 10

10

a; 10~

2Ö Ü \

10~ 'I z

m" ̂ u

■o

10

10

4 10 40 100

AK (KsiVin)


RMS % Error


i 1 1 1 1-'

0. .5 .8 1.25 2.

Figure 8.19.3.1.82 8-1252

Condition/Ht: T761 Form: 0.11 in. Sheet Specimen Type: CCP (max load specified) Orientation: T—L Frequency: 2 Hz Environment: H.H.A.; RT

-I 7475 R


AK (MPaVin) 4 10 40 100

(1 of 1)

10

10

ü o 10 \ c _

-5 10

10

10

10


— £ —

: —

— —

— —

— —

- i ,i,i,i, I i I 111 h

—

— 10

— 10

io"2« o

- 10■ \ o XI

AK (MPaVin) 1 4 10 40 100

10

10

_0J

O

6-10-4

\ E _

10

"o _c —

— 10

— 10

4 10 40 100 AK (KsiVin)

10

10

10

= I ' I ' I'l'l I ' I 'I'l'l n

_0J

o

Jio > XI

— 10

— 10

4 10 40 100 AK (KsiVin)


RMS % Error


r- 0.

—I 1 1—

.5 .8 1.25 —i-'

2.


0. —i 1 1—

.5 .8 1.25 2.

Figure 8.19.3.1.83

8-1253

R ^ 7475 I : Condition/Ht: T761 Form: 0.11 in. Sheet Specimen Type: CCP (max load specified) Orientation: T—L Frequency: 2 Hz Environment: 3.5ss NACL; RT

1

10

-3 10

o frl 0"+

10

10

10

10

AK (MPaVin) 4 10 40 100

-1 1 I I I III!

(1 Of 1)

- i ' i Ti'i r — Stress Ratio: 0.05

' i ' i in ' i ' i in

— 10

10

— 10 E

— 10

10

a T3

10

4 10 40 100 AK (KsiVin)


50.6 56.6 95.6

147. 226. 290. 329.

RMS % Error

7.92

Life Prediction Ratio Summary □ ©

r 1 i 1 1

.5 .8 0. 1.25

Yield Strength: 59.8 - 65.3 ksi Ult. Strength: 68.7 - 74.5 ksi Specimen Thk: 0.114 - 0.115 in. Specimen Width: 36.07 - 36.08 in Ref: 86212

f=-1—i I i I'M

10

10

6^10-4

XJ 10

-5

10

10

10

AK (MPaVin) 4 10 40 100

~l i I i M Ml

I i Llili i 11 in

-no"2 u

10

10

10 E

- -ATI 10

— 10

— 10

o ■o

4 10 40 100 AK (KsiVin)


RMS % Error


—i 1 1—

.5 .8 1.25

Figure 8.19.3.1.84 8-1254

Condition/Ht: T761 Form: 0.11 in. Sheet Specimen Type: CCP (max load specified) Orientation: T-L Frequency: 2 Hz Environment: H.H.A.; RT

^ 7475 R


AK (MPaVin) 4 10 40 100

(1 of 1)

10

10

ü

-o 10

o -a

10

10

10

= I ' I Tl'l I ' I M'l'l — Stress Ratio: 0.25

_L

—

— ~ —

— =

^ —

— _ — fffl —

— =

3 —

— —

_ —

- I , LI,!, I , I,I,I, =

— 10

_0 io"2 °

10 E

- 10 \ o

-5 10

10

10

10

6-10-4

TJ 10

"O _K —

4 10 40 100 AK (KsiVin)

10

10

10

AK (MPaVin) 4 10 40 100

1 I M'l'l 1 ' I M'l'l — 10

' I I III! I I I I 111 LL

— 10

<o 2 TZ

10 Ü

O \

,E 10 b N—

2

m" ̂ Ü

T>

10

10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (10-6 in/cycle) 7.84 (min) 8. 9.

10. 13. 16. 20. 22.71 (max)

4.82 5.28 8.17

11.0 21.2 34.9 59.9 71.1

RMS % Error

5.57


r

RMS % Error

Z .5 .8 1.25


.5 .8 1.25

Figure 8.19.3.1.85 8-1255

■\ 7475 I Condition/Ht: T761 Form: 0.04 in. Sheet Specimen Type: CCP (max load specified) Orientation: T—L Stress Ratio: 0.33 Frequency: 13.3 Hz

AK (MPaVin) 4 10 40 100

(1 of 3)

10

-3 10

o 6"io-+

c _

10

10

10

10

- I ' I 'I'l'l I ' I 'l'l'l -1


— —

~~ —

— —

— JJF —

_ —

II 1 1

I i 1,1,1,

—

10

— 10

io"2£ Ü

10

— 10

x>

o

10

4 10 40 100

AK (KsiVin)


10. 13. 16. 17.65 (max)

2.17 3.16 4.66 6.27 8.21

16.9 29.9 39.3

RMS % Error

1.29


0. .5 .8 1.25


AK (MPaVin) 4 10 40 100

10

10

_0J —

u ü 10 \ c _

10

10

10

10

- I I I <lllll I ' I 'I'l'l ^ - Environment: H.H.A.; R.T. —

: —

— -3

— r5

—

_ cT -=

— —

" I , I,I,I, I , I,I,I, —

(2 of 3)

10

10

io"2^ o

- 10~J E

— 10

10

— 10

D

4 10 40 100 AK (KsiVin)


10. 13. 16. 16.34 (max)

4.79 6.22 9.32

14.0 19.9 39.5 71.1 77.4

RMS % Error

4.09

Life Prediction Ratio Summary D

0. .5 .8 1.25

Figure 8.19.3.1.86 8-1256

7475 h Condition/Ht: T761 Form: 0.04 in. Sheet Specimen Type: CCP (max load specified) Orientation: T—L Stress Ratio: 0.33 Frequency: 13.3 Hz


E=~l—I I l I Ml — Environment: Salt Fog; R.T. — 10

10

10

u 5M O"4

10

10

10

10

AK (MPaVin) 4 10 40 100

"I—I I I I INI—

(3 of 3)

' i iiHI i i i i 111

— 10

AK (MPaVin) 1 4 10 40 100

io"2"

10 E

10

10

10

o XI

4 10 40 100 AK (KsiVin)

10

10

U

6-10-4

10

10

10

10

= I ' I TIM I ' I TIM = 10

10

io"2£ ü \

-3 | 10 E

- _»._CI

10

— 10

o T3

-6 10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (I0"6in/cycle) 6.53 (min) 7. 8. 9.

10. 13. 16. 17.48 (max)

12.7 14.6 20.0 26.6 33.9 56.7 93.7

134.

RMS 53 Error

2.92


0. .5 .8 ^25 2.

RMS % Error


0. —, , ,— .5 .8 1.25


■\ 7475 I Condition/Ht: T761 Form: 0.13 in. Sheet Specimen Type: CCP (max load specified) Orientation: T-L Stress Ratio: 0.33 Frequency: 13.3 Hz

1

10

10

o

10

10

10

10

AK (MPaVin) 4 10 40 100

I ' I M'l'l

(1 of 3)

= I ' I 'I'l'l — Environment: Dry Air; R.T. 10

4 10 40 100

AK (KsiVin)


10. 13. 16. 20. 24.97 (max)

1.50 1.91 3.28 5.19 7.64

10.6 21.3 35.2 73.6

202.

RMS % Error

5.68


2. 0. —r—

.5 —T—

.8 1.25



1 4 10 40 100 t=—\—i I i l ilil 1—i I i |i|i|

4 10 40 100

AK (KsiVin)


10. 13. 16. 20. 25. 25.01 (max)

2.42 3.18 5.58 9.16

14.0 20.0 42.1 69.7

113. 235. 236.

RMS % Error

7.50


i 1 r 1 1

2. 0. .5 .8 1.25

Figure 8.19.3.1.87 8-1258

-\ 7475 r Condition/Ht: T761 Form: 0.13 in. Sheet Specimen Type: CCP (max load specified) Orientation: T—L Stress Ratio: 0.33 Frequency: 13.3 Hz


AK (MPaVin) 1 4 10 40 100

—T—l I I I Mil 1—I I I I i|i|—

(3 of 3)

— Environment: Salt Fog; R.T. — 10

10

10

o o 10

10

■o _c — 10

10

10

— 10

io"2£ o \

-3 | 10 £

10

10

10

-a

a x>

4 10 40 100 AK (KsiVin)

AK (MPaVin) 1 4 10 40 100

-2 10

10

JP _ u o^10-4

\ c _

,-s 10

-o _c I— 10

10

10

= I ' I M'l'l I ' I 'l'l'l 3

10

10

o \

-3 | 10 E

1 -,- o

10

— 10

4 10 40 100 AK (KsiVin)


10. 13. 16. 20. 22.77 (max)

6.66 6.76

12.2 19.6 28.6 39.3 78.7

125. 191. 237.

RMS X Error

6.12

Life Prediction Ratio Summary EID

RMS % Error

0. .5 .8 1.25 2.


0. .5 .8 1.25


EF I 7475 I Condition/Ht: T7651 Form: Sheet Specimen Type: CCP (max stress specified) Orientation: L-T Stress Ratio: 0.

1

-2 10

10

u ^10"4

10

10

10

10

AK (MPaVin) 4 10 40 100

1 I I I Mil

(1 of 3)

- I ' I U'l'l — Environment: Lab Air; R.T.; ~=\ 1 ° _ Frequency: 6. Hz

i i i i in ' i i i i n

10

o

10 E

10

10

10

a

4 10 40 100 AK (KsiVin)


10. 13. 16. 20. 23.91 (max)

3.32 4.20

13.2 24.7 41.5 57.7

RMS % Error

2.12


i 1 r

.5 .8 0. 1.25 2.

Yield Strength: 67.6 ksi Ult. Strength: Specimen Thk: 0.188 - 0.193 in. Specimen Width: 11.995 - 12.007 Ref: DA001

AK (MPaVin) 1 4 10 40 100

T 1 I I I Mil—

(2 of 3)

= I ' I M'l'l — Environment: Lab Air; -65°F; -=\ 10 _ Frequency: 20. Hz

10

10 -3

_QJ —

o _ u 10

_c i_

-5 10

T3 —

10

10

10 I I I I III I I I [111

— 10

a; 10 ^

ü \

-3 | 10 E

10 o

-5 — 10

10

4 10 40 100 AK (KsiVin)


4.54 5.72

15.4 26.5 53.4 88.4

RMS % Error

6.10


i 1 r- 1 1

0. .5 .8 1.25 2.

in.

Figure 8.19.3.1.88 8-1260

-\ 7475 \ Condition/Ht: T7651 Form: Sheet Specimen Type: CCP (max stress specified) Orientation: L—T Stress Ratio: 0.

EF Yield Strength: 67.6 ksi Ult. Strength: Specimen Thk: 0.188-0.193 in. Specimen Width: 11.995-12.007 in Ref: DA001

AK (MPaVin) 1 4 10 40 100 F=-~l—I I i I Mil—

(3 of 3)

— Environment: S.T.W.; R.T.; _ Frequency: 1. Hz

I I I I MM

10

10

—

o

10"3E

AK (MPaVin) 1 4 10 40 100

10

10

o

— 10

10 I I 'I'll

10

10

o

5-10-4

c _

■Z- 10

10

-5

1 4 10 40 100

AK (KsiVin)

10

10

= I ' I 'ITI I ' I 'I'l'l 3

10

10

— io"2£

Ü

io"3E

- -A.T3

10

— 10

— 10

o

4 10 40 100

AK (KsiVin)


10. 13. 16. 17.02 (max)

0.772 6.94

15.5 20.7 27.1 52.6 81.9 89.6

RMS % Error 16.11


i 1 1 1 1—

0. .5 .8 1.25 2.

RMS % Error


0. .5 .8 1.25 —i--

2.


R \ 7475 I ■ Condition/Ht: T7651 Form: Sheet Specimen Type: CCP (max stress specified) Orientation: L-T Frequency: 30 Hz Environment: LAB AIR; RT

AK (MPaVin) 4 10 40 100

(1 of 2)

10

10

o

^10"4

c _

Z 10

XI _K —

10

10

10

= I ' I 'I'l'l I ' I 'I'l'l a


"^~ —

™~* —

— —

— —

: • —

- i , i,i,i, i , i,i,i,

—

10"2 ° o

10 E

— 10

— 10

— 10

o

4 10 40 100 AK (KsiVin)


0.170 0.186 0.284 0.432 0.487

RMS % Error

4.52


i 1 1 1 1—

0. .5 .8 1.25 2.

Yield Strength: 67.6 ksi Ult. Strength: Specimen Thk: 0.188 in. Specimen Width: 4 - 4.002 in. Ref: DA001

AK (MPaVin) 1 4 10 40 100

1—I I 11IIM—

(2 of 2)

I ' I 'I'l'l 1 — Stress Ratio: 0.4

10

10

o

o^10-4

10

10

10 -7

10 .-8

I I II III I I I I III

— 10

10

_2 -Jio"2£

Ü

— io E

— 10

— 10

— 10

o

4 10 40 100

AK (KsiVin)


0.307 0.390 1.02 2.24

RMS % Error

2.36


i 1 r— 1 1

.5 .8 1.25 2. 0.

Figure 8.19.3.1.89 8-1262

Condition/Ht: T7651 Form: Sheet Specimen Type: CCP (max stress specified) Orientation: L—T Frequency: 1 - 5 Hz Environment: S.T.W.; RT

-\ 7475 r R


AK (MPaVin) 4 10 40 100

10

10

o

o 10 \ c _

■Z. 10

-o _« - 10

10

10

.-6


— —

— —

— 7- —

_ □ —

— —

" I , I.I.I. I , I.I,I, —

(1 of 1)

10

— 10

10"2^ o

,o-|

10

— 10

— 10

o ■o

AK (MPaVin) 1 4 10 40 100

-2

4 10 40 100

AK (KsiVin)

10

10

o ^10"4

E _

-Z- 10 "a |—

10

10

10

_ | . | , ,T| | , | ,,.|.| _L

10

— 10

10"2^ ü

10 E

-Jio \ ■D

— 10

— 10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (I0"6in/cycle) AK (KsiVin) da/dN (10_6in/cycle) 6.64 (min) 7. 8. 9.

10. 13. 16. 18.16 (max)

3.40 6.78

18.0 25.3 32.0 63.8 90.1

105.

RMS % Error 11.57


i 1 1 1 1—

0. .5 .8 1.25 2.

RMS % Error


0. .5 .8 1.25 2.

Figure 8.19.3.1.90 8-1263

R \ 7475 r Condition/Ht: T7651 Form: Sheet Specimen Type: CCP (max stress specified) Orientation: L-T Frequency: Environment: LAB AIR; RT

AK (MPaVin) 1 4 10 40 100

-1 1 I I I INI

(1 Of 1)

10

10

o o 10

Z 10

10

-5

10

10

I ' I M'l'l—I — Stress Ratio: 0.4

' i i i HI ' i i 11 ii

— 10

10

-îo~2 u

o

-•3 r- 10 E

10

10

10

o

4 10 40 100 AK (KsiVin)


14.5 25.3 40.5 76.2

146. 232.

RMS % Error

2.96.


i 1 1 1 1

.5 .8 1.25 2. 0.


AK (MPaVin) 1 4 10 40 100 C=—\ 1 I I Mill 1 1 I I MM—

10

10

o 6-10-4

10 ■o ~

10

10

10 I Mllll i i i M ii

— 10

— 10

-3 | — 10 E

— 10

— 10

4 10 40 100 AK (KsiVin)


RMS % Error


0. —i 1 1

.5 .8 1.25

Figure 8.19.3.1.91 8-1264

7475 Condition/Ht: T7651 Form: Sheet Specimen Type: CCP (max stress specified) Orientation: L—T Stress Ratio: 0.8

EF Yield Strength: 67.6 ksi Ult. Strength: Specimen Thk: 0.188-0.19 in. Specimen Width: 12.002-12.004 in Ref: DA001


1 4 10 40 100 c=-1—i I i 11111 1—i I i I nil—

-2 10

10

O o 10

— Environment: Lab Air; R.T.; -=\ 10 _ Frequency: 2. Hz

10

10

10

10 i l i 111 ' i i i HI

10

IO"2£ o

-3 | 10 E

10

10

.."a

D XI

AK (MPaVin) 1 4 10 40 100

-1—i I i I nil—

(2 of 2)

— Environment: Lab Air; -65T; -=j 10 Frequency: 10. Hz

10

10

u 10

10

"o _. —

— 10

4 10 40 100 AK (KsiVin)

10

10

10

i i i inn

i Mini i i i 1111

10

a; 2 TT

10 C) \

10~ •I ^-* 2

m" ̂ U

T>

-5 10

10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (I0"6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 6.52 (min) 7. 8. 9.

10. 13. 13.30 (max)

5.39 6.64

10.4 15.4 21.5 48.6 55.1

6.25 (min) 7. 8. 9.

10. 11.72 (max)

2.03 3.63 6.28 9.57

13.9 26.0

RMS % Error

1.28


0. .5 .8 1.25 2.

RMS % Error

1.80


.5 .8 1.25 2.

Figure 8.19.3.1.92 8-1265

R \ 7475 I : Condition/Ht: T7651 Form: Sheet Specimen Type: CCP (max stress specified) Orientation: L—T Frequency: 5 — 10 Hz Environment: LAB AIR; RT


AK (MPaVin) 4 10 40 100

10

-3 10

o £l 0"+

c _

10

"o _c — 10

10

10

- I I I 'I'l'l I ' I Tl'l -1


— —

"~~ —

— —

" /

—

—

- 1 , 1,1,1, 1 , 1,1,1, —

(1 of 1)

10

— 10

10"2 ° o

_ 10"J E

- _x"CI

— 10

— 10

— 10

o XI

4 10 40 100 AK (KsiVin)


1.19 1.66 3.51 5.38 5.56

RMS % Error

1.73


i —i 1 1 1—

.5 .8 1.25 0. 2.

AK (MPaVin) 4 10 40 100

10

10

u 6^10-4

c i_

■Z. 10

10

10

10

- I ' I 'I'l'l I ' I 'I'l'l n

10

io"2^ o \

-3|

- _^"o 10

— 10

o

10

4 10 40 100

AK (KsiVin)


RMS % Error


0. —i 1 1—

.5 .8 1.25

Figure 8.19.3.1.93 8-1266

7475 Condition/Ht: T7651 Form: 0.75 in. Plate Specimen Type: CT Orientation: L-T Frequency: 1 Hz Environment: DIST WATER; RT

R

Yield Strength: 67.7 - 69.3 ksi Ult. Strength: Specimen Thk: 0.248 in. Specimen Width: 2.002 - 2.003 in Ref: DA005

AK (MPaVin) 4 10 40 100

i i 11 HU 1—i i i i MM

(1 of 2)

4 10 40 100 AK (KsiVin)

-2 10

10

o bîo-4

XI 10

-5

10

10

10

.-6


4 10 40 100 I I I I I IM I I I I I PTT

Stress Ratio: 0.8

' i i im I I I 11li

— 10

— 10

io"2 ü

o

-3 | 10 E

Jio \ -o

— 10

10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (I0"6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 5.10 (min) 0.271 6. 0.682 7. 1.46 8. 2.60 9. 4.07

10. 5.82 13. 12.0 16. 19.1 20. 34.9 25. 76.3 30. 129. 34.13 (max) 205.

3.41 (min) 3.5 4. 5. 6. 7. 8. 9. 9.17 (max)

0.866 0.933 1.40 2.86 5.04 7.65

11.5 16.6 17.3

RMS % Error 17.61


i 1 1 1 1—

0. .5 .8 1.25 2.

RMS % Error

2.94


0. .5 .8 1.25

Figure 8.19.3.1.94

8-1267

R \ 7475 | Condition/Ht: T7651 Form: 0.75 in. Plate Specimen Type: CT Orientation: L-T Frequency: 5 Hz Environment: DIST WATER; RT

1

10

-3 10

_0J

ü

6-10-4

c _

10 u —

-o _„ — 10

10

10

AK (MPaVin) 4 10 40 100

-i—i | i | Nil—

(1 of 1)

- i ■ i M'l'i r - Stress Ratio: 0.05

— a

' i iiHI [ i 111ii

10

10

Ü \

— 10 E

-Jio >

10

— 10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10'6 in/cycle)

RMS % Error


0. —i 1 1—

.5 .8 1.25 —I--

2.


C=—| 1 I I Mil

-2 10

10

o 6-10-4

-o 10

"O 10

10

10

AK (MPaVin) 4 10 40 100

I ' I 'I'l'l

i i i im

— 10

— 10

-dio"2 ° Ü

10 E

- _*"cs 10

— 10

o X)

-6 10

4 10 40 100 AK (KsiVin)


RMS % Error


i 1 1 1 1—

0. .5 .8 1.25 2.

Figure 8.19.3.1.95 8-1268

Condition/Ht: T7651 Form: 1 in. Plate Specimen Type: CT Orientation: L—T Frequency: 20 Hz Environment: DRY AIR; RT

7475 r R


AK (MPaVin) 4 10 40 100

-2 10

10

o o 10 \ c _

Z 10 TJ t:

10

10

10

_ | , | ,,T| | , | .,.,., .X


— —

— —

— —

— j$P —

— —

" I , Mil. I , I,I,I, -=

(1 of 1)

10

— 10

io"2^ u

10"JE

AK (MPaVin) . 1 4 10 40 100

-2

- 10 \ a

10

— 10

4 10 40 100

AK (KsiVin)

10

10

o

G-10-4

\ c _

10

"o _c — 10

10

10

= I ' I 'I'l'l I ' I 'I'll 3

10

io'2^ o

TJ - 10^\ O

10

— 10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10_6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 4.44 (min) 5. 6. 7. 8. 9.

10. 13. 16. 16.94 (max)

0.529 1.04 2.13 3.10 3.89 4.66 5.63

11.6 18.5 24.0

RMS 95

Error

6.56

Life Prediction Ratio Summary RMS x Error

0. .5 .8 1.25


i 1 1 1 1—

0. .5 .8 1.25 2.

Figure 8.19.3.1.96 8-1269

F I 7475 I Condition/Ht: T7651 Form: 0.75 in. Plate Specimen Type: CT Orientation: L-T Stress Ratio: 0.4 Environment: LAB AIR; RT


1 AK (MPaVin)

4 10 40 100 i I i I H'l—

(1 of 2)

•- I ' I 'IT Frequency: 10. Hz

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10-6in/cycle) 4.31 (min) 5. 6. 7. 8. 9.

10. 13. 16. 20. 21.54 (max)

0.371 0.929 2.17 3.70 5.33 7.03 8.86

16.3 29.2 46.9 50.0

RMS % Error

3.72


i 1 r— 1 1

0. .5 .8 1.25 2.

AK (MPaVin) 4 10 40 100

10

10

o^10-4

-Z. 10 ~a tz

o X>

10

10

_-8 10

- I i I i|i|'| | ' | >|'l'l a

- Frequency: 20. Hz ~=

~~" —

— -=

—

- J —

: / —

-fii .LI, i , I,I,I, —

(2 of 2)

— 10

10

io"2£ o

~° r- — 10 E

10

— 10

D XI

10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10-6in/cycle) 1.97 (min) 2. 2.5 3. 3.5 4. 5. 6. 6.05 (max)

0.0241 0.0277 0.0847 0.121 0.163 0.254 0.883 2.14 2.17

RMS % Error 12.32


0. —i 1 1—

.5 .8 1.25

Figure 8.19.3.1.97 8-1270

Condition/Ht: T7651 Form: 0.75 in. Plate Specimen Type: CT Orientation: L—T Stress Ratio: 0.8

7475 EF

Yield Strength: 67.7 - 69.3 ksi Ult. Strength: Specimen Thk: 0.248 in. Specimen Width: 2.003 in. Ref: DA005

AK (MPaVin) 4 10 40 100

10

10

o o 10

c _

-Z. 10 ■a tr

"O _. — 10

10

10

.-6

_ | . | !,>,!{ | I | l|l|l| _i

— Environment: Lab Air; R.T.; — — Frequency: 30. Hz —

— —

— —

— —

: J —

\ j —

i ,i,i,i, I , ! ,l.l, —

(1 of 2)

10

— 10

10~2 ° o

10 S -z.

10

— 10

10

o

AK (MPaVin) 1 4 10 40 100

10

10

ü 10

c _

10 T3

4 10 40 100 AK (KsiVin)

10

10

10

— I ' I >|i|>| | i | Tl'l ->■ — Environment: H20(D)/Lab Air; — — R.T.;

Frequency: 20. Hz ~

— -=

— —

— -=

— -3

— -::

— a — a

" I , I: I , !,!,!, -=

(2 of 2)

10

— 10

— io"2^

ü \

-I 10 E

— 10 \ o

— 10

— 10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (I0"6in/cycle) 1.31 (min) 1.6 2. 2.5 3. 3.5 4. 5. 6. 7. 7.66 (max)

0.0254 0.0449 0.0757 0.140 0.289 0.631 1.20 2.25 3.18 5.62 6.84

RMS % Error 11.88


0. .5 .8 1.25


r- 0.

—i 1 1—

.5 .8 1.25

Figure 8.19.3.1.98 8-1271

EF i 7475 I Condition/Ht: T7651 Form: 0.5 in. Plate Specimen Type: CCP (max load specified) Orientation: L-T Stress Ratio: -0.2

-2 10

10

ü

fcl 0"+

■Z. 10 T3

— Environment: Dry Air; R.T.; -= 1(^ _ Frequency: 6. Hz

— 10

o 10

10

10

-7

AK (MPaVin) 4 10 40 100 i i i mi 1—i l i I HU

(1 of 2)

10 £

— 10 E

— 10

10

a

10

4 10 40 100

AK (KsiVin)


10. 13. 16. 20. 25. 30. 35. 39.76 (max)

0.0696 0.0746 0.0950 0.185 0.379 0.748 1.38 2.35 3.73

10.1 18.2 31.5 55.9 89.0

128. 187.

RMS % Error 10.46


.5 .8 1.25


1 AK (MPaVin)

4 10 40 100

(2 of 2)

Environment: S.T.W.; R.T.; -=H0 _ Frequency: 1. Hz

I I i I MM ~ i i i 11 >i

4 10 40 100 AK (KsiVin)


10. 13. 16. 18.59 (max)

0.173 0.382 1.26 3.27 6.97

12.7 20.5 49.3 67.8 66.7

RMS % Error 32.97


0. —i 1 r—

.5 .8 1.25

Figure 8.19.3.1.99 8-1272

^ 7475 r Condition/Ht: T7651 Form: 0.25 in. Plate Specimen Type: CCP (max stress specified) Orientation: L—T Frequency: 3 Hz Environment: LAB AIR; RT

R


AK (MPaVin) 1 4- 10 40 100

10

-3 10

o 10

c L_

-5 10

x> _K - 10

10

10

= I ' I 'I'll 1 ' 1 'l'l'l -1


— —

— /

—

= —

— —

— —

II 1 1

1 , 1,1,1,

(1 of 1)

10

io~2 °

10"° £

-4J> 10

10

10

o XI

10

10

(J

6-10-*

AK (MPaVin) 4 10 40 100

, i , i■MI I i I i 11 in—

4 10 40 100

AK (KsiVin)


65.4 81.3

125. 188. 277. 512. 745.

10

10

10

10

— 10

10

I I I I III I I I I III

o

10 o x»

-5 10

10

4 10 40 100 AK (KsiVin)


RMS * Error

1.49


0. .5 .8 1.25 2.


0. .5 .8 1.25

Figure 8.19.3.1.100 8-1273

R 7475

Condition/Ht: T7651 Form: 0.25 in. Plate Specimen Type: CCP (max stress specified) Orientation: L—T Frequency: 30 Hz Environment: LAB AIR; RT


AK (MPaVin) 4 10 40 100

(1 of 1)

10

10

J£ I— ü o 10 c _

Z10

"o _K I— 10

10

10

- I i I Tl'l 1 ' 1 U'l'l -1


— —

— —

— —

— m

—

—— Icy —

" 1 , 1,1,1, 1 , 1,1,1, —

10

io'2£

10 E

10

— 10

— 10

o T3

4 10 40 100 AK (KsiVin)


0.561 0.716 1.33 2.47 3.22

RMS % Error

4.52


i H -i r 0. .5 .8 1.25

AK (MPaVin) 1 4 10 40 100

•- I ' I 'I'l'l 1 ' I Tl'l

10

10

u 6^10-4

c _

-5 Z 10

"O _fi - 10

10

10 ' I I I III I IMlll

10

10

io"2 u

u

-3 | 10 E

10

10

10

a

4 10 40 100 AK (KsiVin)


RMS % Error


0. —i 1 1—

.5 .8 1.25

Figure 8.19.3.1.101 8-1274

I -7 47. <- I 1 / J I _

- r Condition/Ht: T7651 Form: 0.75 in. Plate Yield Strength: 69 ksi Specimen Type: CCP (max load specifie d) Ult. Strength: Orientation: L—T Specimen Thk: 0.207 in. Stress Ratio: 0.05 Specimen Width: 12.009 in. Environment: LAB AIR; RT Ref: DA005


1 4 10 40 100 1 4 10 40 100 _ | i | i|i|i| | i | i|i|i| a -Ml M'l'l I ' I 'ITI A

— Frequency: 5. Hz ~ 10 — Frequency: 10. Hz — 10

10"2 10~2

— -1 10 —

-1 10

ID"3 io"* & _a) — io"2£ o o o o 6^10"4 6-10-4

— c 10 E c 10 E v—' ^-*

v-^ v-' 2 10"5

■D Z10"5

■o ■z.

— Jf \ 10 \ \ 10 > D — o o o "° -6 — -a

^<„-6 — P "O

10 10 1 — -5 — m -5

10 — T 10

io"7 io"7 ~ nF" -

-6 10 E & -6

10

irfB " I , I,I,I, I , I,hi, m"8 ~ I ,-1,1,1, I , I,I,I, 1 4 10 40 100 1 4 10 40 100


AK (KsiVin) da/dN (10-6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 7.68 (min) 2.80 2.62 (min) 0.0621 8. 3.21 3. 0.0883 9. 4.70 3.5 0.117

10. 6.47 4. 0.145 13. 14.0 5. 0.244 16. 24.9 6. 0.517 20. 44.8 7. 1.19 22.59 (max) 68.0 7.43 (max) 1.70


1.30 i 1 1— - ■ i i

0. .5 .8 1.25 2. 5.56 0. .5 .8 1.25 2.

Figure 8.19.3.1.102 8-1275

R ^ 7475 | Condition/Ht: T7651 Form: 0.5 in. Plate Specimen Type: CCP (max load specified) Orientation: L-T Frequency: 6 Hz Environment: DRY AIR; RT

1

-2 10

10

o

6-10-*

10

-o _R — 10

10

10

AK (MPaVin) 4 10 40 100

-1 1 I I I Mil

(1 of 2)

- I ' I 'I'l'l — Stress Ratio: 0.1

i ' i i i i n

— 10

10

io"2 u

o

10_JE

10

10

10

o

4 10 40 100

AK (KsiVin)


10. 13. 16. 20. 25. 28.70 (max)

0.470 0.552 0.889 1.46 2.34 3.64

10.7 22.2 39.0 60.3 81.9

RMS S Error 13.29


i 1 1 1 1

2. 0. .5 .8 1.25



10

10

o

bîo-4

c _

10 -5

•o _„ — 10

10

10

AK (MPaVin) 4 10 40 100

1 I 'I'l'l—I ' I 'I'l'l

(2 of 2)

' i i 11 n ' i i 11 n

— 10

— 10

-no"2£ o \

-3 I —ho E

— 10

10

— 10

o x>

4 10 40 100

AK (KsiVin)


0.141 0.253 0.612 1.37 2.97 4.59

RMS % Error 10.38


0. .5 .8 1.25 2.

Figure 8.19.3.1.103 8-1276

Condition/Ht: T7651 Form: 0.5 in. Plate Specimen Type: CCP (max load specified) Orientation: L—T Stress Ratio: 0.1 Frequency: 0.1 Hz

■\ 7475 r


10

10

U

o 10

10

10

-5

10

10

-7

AK (MPaVin) 4 10 40 100

—I I I I MM—

(1 of 2)

I ■ I TH - Environment: H.H.A.; R.T. -d 10

10

10"2£ o

,o4 10

10

10

D

4 10 40 100

AK (KsiVin)

AK (MPaVin) 1 4 10 40 100

"- I ' I 'I'l'l

(2 of 2)

1 I 'I'l'l Environment: S.T.W.; R.T. 10

10

10'2^ o

10 E

10

10

10

-o

D

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (lO-6in/cycle) 6.80 (min) 7. 8. 9.

10. 13. 16. 18.72 (max)

1.65 2.04 3.88 5.16 6.27

15.2 25.7 48.2

5.69 (min) 1.11 6. 1.30 7. 2.42 8. 4.64 9. 8.60

10. 14.9 13. 48.7 16. 86.7 20. 186. 21.30 (max) 290.

RMS % Error

4.61


0. .5 .8 1.25

RMS % Error

6.68


.5 .8 1.25 —I-'

2.

Figure 8.19.3.1.104 8-1277

R ■I 7475 I : Condition/Ht: T7651 Form: 0.5 in. Plate Specimen Type: CCP (max load specified) Orientation: L—T Frequency: 1 Hz Environment: S.T.W.; RT

AK (MPaVin) 4 10 40 100

(1 of 2)

10

10

_a> — o 6^10-+

c _

■Z. 10 X> tz

XI . — 10

10

10

- I ' I M'l'l I ' I M'l'l _L

— Stress Ratio: 0.1 — — - — — — — — - — — — — — - — — — — — OR -

— — / — — / - — r — — Jp — — _d£P - — vt) — — —

- 1 ,1,1,1, 1 ,1,1,1, -

io-2^ u

10 E

-io'\ o X)

— 10

10

4 10 40 100

AK (KsiVin)

AK.(KsiVin) da/dN (10"6in/cycle) 3.34 (min) 3.5 4. 5. 6. 7. 8. 9.

10. 13. 16. 20. 22.11 (max)

0.141 0.119 0.113 0.301 1.18 4.01

10.0 18.1 26.4 50.2 80.5

122. 131.

RMS % Error 21.91


0. .5 .8 1.25


AK (MPaVin) 1 4 10 40 100

1—i I i I Mil—

(2 of 2)

i- I ' I M'l'l 1 Stress Ratio: 0.3 — 10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) . 3.58 (min)

4. 5. 6. 7. 8. 9.

10. 13. 16. 20. 25. 25.47 (max)

0.0716 0.197 1.16 3.88 9.07

16.7 26.2 36.3 62.9 90.0

162. 236. 232.

RMS % Error 24.14


0. .5 .8 1.25

Figure 8.19.3.1.105 8-1278

^ 7475 r Condition/Ht: T7651 Form: 0.25 in. Plate Specimen Type: CCP (max stress specified) Orientation: L—T Frequency: 30 Hz Environment: LAB AIR; RT

R


AK (MPaVin) 4 10 • 40 100

[1 of 1)

10

10 _aj _ o o 10

-5 Z 10 ■o

"o _. — 10

10

10

-7

_ | 1 | M|l| | 1 | l|l|l| j.


— —

— —

"^ —

— —

— Z

" 1 , 1,1,1, 1 , 1,1,1, —

10

10'£ o \

-3 | 10 E

AK (MPaVin) 4 10 40 100

10

10

■o

o T3

— 10

4 10 40 100 AK (KsiVin)

10

10

_Q — o u 10

-5 10

10

10

10

= I ' I TIM I ■ I Tl'ln

10

— 10

10 E

-Jio >

— 10

10

4 10 40 100 AK (KsiVin)


4.48 4.94 7.33

10.0 11.5

RMS % Error

0.71


i i 1 1 1—

0. .5 .8 1.25 2.

RMS % Error


0. .5 .8 1.25

Figure 8.19.3.1.106 8-1279

EF I 7475 I Condition/Ht: T7651 Form: 0.5 in. Plate Specimen Type: CCP (max load specified) Orientation: L—T Stress Ratio: 0.5

— Environment: Dry Air; R.T.; — 10

_ Frequency: 6. Hz

10

AK (MPaVin) 4 10 40 100

T 1 I I I i|'l—

(1 of 2)

I I MM

io"2 u

10

10

10

10

o

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (l0-6in/cycle) 2.38 (min) 2.5 3. 3.5 4. 5. 6. 7. 8. 9.

10. 13. 15.98 (max)

0.101 0.110 0.169 0.279 0.461 1.14 2.38 4.17 6.37 8.92

11.8 23.6 36.9

RMS % Error

6.81


0. .5 .8 1.25


1 AK (MPaVin)

4 10 40 100 1—i I MUM—

(2 of 2)

b I ' I 'I'l'l — Environment: S.T.W.; R.T.; -=j 10 _ Frequency: 1. Hz

4 10 40 100 AK (KsiVin)


10. 11.88 (max)

0.205 0.249 0.592 4.07

12.6 21.4 28.4 35.1 44.8 69.1

RMS % Error 26.02


0. .5 .8 1.25 2.

Figure 8.19.3.1.107 8-1280

-I 7475 h Condition/Ht: T7651 Form: 0.25 in. Plate Specimen Type: CCP (max stress specified) Orientation: L—T Frequency: 10 Hz Environment: LAB AIR; RT

R


AK (MPaVin) 1 4- 10 40 100

(1 of 1)

10

10

o 6^10"+

\ c _

10

10

10

10

-7

- I I I 'I'l'l I ' I 'l'l'l -1


— —

— —

— —

: / —

: —

- i , i.i.i, i , I,I,I, —

-1 — 10

10"2 °

WE

10

— 10

AK (MPaVin) 1 4 10 40 100

10

10

u^10-4

2 10

T3 _c —

4 10 40 100 AK (KsiVin)

10

10

10

= I ' I 'I'l'l I ' I M'l'l J

— —

— —

— =

— —

— =

= —

— =

— —

— ~~

= —

— —

— —

" I , l<hl, I , l.-l.l, =

o \

10 E

10 o

-S — 10

-6 — 10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10_6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 3.18 (min) 3.5 4. 5. 5.14 (max)

0.618 0.909 1.69 4.04 4.31

RMS X Error

4.16


i 1 1 1

.5 .8 1.25 —i-'

2.

RMS % Error


0. .5 .8 1.25 2.

Figure 8.19.3.1.108 8-1281

R -1 7475 I Condition/Ht: T7651 Form: 1 in. Plate Specimen Type: Orientation: Frequency: 1 Hz Environment: 3.5$ NACL; RT


AK (MPaVin) 4 10 40 100

(1 of 1)

4 10 40 100 AK (KsiVin)


10. 13. 15.14 (max)

1.06 2.45 8.63

13.0 18.2 26.4 64.8 93.7

RMS % Error 13.76


-i r

0. .5 .8 1.25

AK (MPaVin) 4 10 40 100

10

IQ"3

_a> — o

o^10-4

\ c _

_-5 10

xi _s I— 10

10

10

-7

- I ' I M'l'l 1 ' I 'I'l'l = 10

10"2 ° o

-3 I 10 E

- _*.T> 10

— 10

— 10

o

4 10 40 100 AK (KsiVin)


RMS % Error


0. —i 1 1—

.5 .8 1.25

Figure 8.19.3.1.109 8-1282

^ 7475 Condition/Ht: T7651; 255F 4HR Form: 1.75 in. Plate Specimen Type: CT Orientation: L—T Frequency: 1 Hz Environment: DIST WATER; RT

R

Yield Strength: 68.3 ksi Ult. Strength: 77.6 ksi Specimen Thk: 0.249 - 0.25 in. Specimen Width: 2.002 - 2.003 in Ref: DA004

AK (MPaVin) 4 10 40 100

10

-3 10

o ^10"+

\ c _

-5 10

o

10

10

10

-7

= I ' I — Stress

M'l'l I ■ I 'I'l'l Ratio: 0.05 —

~ —

— —

— —

— _ — —

— ~ —

—

—

Q —

ZI —

- I , I ,l,l, I < I .l,l, =

(1 of 2)

10

— 10

10"2^ o

- _*X) — 10

— 10

— 10


4 10 40 100

10

10

-2

O

4 10 40 100 AK (KsiVin)

o ^10"+

\ c _

10

"o _c — 10

10

10

- I ' I 'I'l'l I ' I 'I'l'l _L


— — —

— =

— —

— m -3

"""■ rflSff —

— JB _ "™" 1*9 —

— _

" 1 , 1,1,1, 1 , I.U, —

10

— 10

io"2^ o

Jio > XI

— 10

10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (10"6 in/cycle) 6.61 (min) 0.919 7. 1.13 8. 1.78 9. 2.68

10. 3.91 13. 11.7 16. 28.4 20. 51.7 25. 139. 27.61 (max) 217.

3.51 (min) 4. 5. 6. 7. 8. 8.93 (max)

0.583 1.14 2.62 6.18 8.74

18.5 31.8

RMS % Error

18.81


i 1 1 1 1—

0. .5 .8 1.25 2.

RMS % Error

6.31


i 1 1 1 1—

.5 .8 1.25 2.

Figure 8.19.3.1.110 8-1283

R \ 7475 I Condition/Ht: T7651; 255F 4HR Form: 1.75 in. Plate Specimen Type: CCP (max load specified) Orientation: L-T Frequency: 8 Hz Environment: LAB AIR; RT

AK (MPaVin) 4 10 40 100

T

(1 Of 1)

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) 2.66 (min) 3. 4. 5. 6. 7. 8. 9.

10. 16. 20. 30. 40. 60. 78.06 (max)

0.0693 0.0847 0.179 0.394 0.820 1.59 2.85 4.79 7.59

47.4 90.4

185. 323.

1359. 6927.

RMS % Error 11.55


i— 1——i i 1

.5 .8 0. 1.25


AK (MPaVin) 4 10 40 100

I- I ' I 'I'l'l 1 ' I 'I'l'l

10

10

u _

10 -s

o ■o -e -

10

10

10 i I Mill

— 10

— 10

o

-3£ 10 E

z -Jio >

-s — 10

10

4 10 40 100

AK (KsiVin)


RMS % Error


0. —i 1 1—

.5 .8 1.25 —i-'

2.

Figure 8.19.3.1.111 8-1284

Condition/Ht: T7651; 255F 4HR Form: 1.75 in. Plate Specimen Type: CCP (max load specified) Orientation: L—T Stress Ratio: 0.4 Environment: LAB AIR; RT

^ 7475 r


F

AK (MPaVin) 4 10 40 100

(1 of 2)

10

10

o

o 10 \ c _

Z 10 "o L: \ o ^ -6

10

10

10 -8

_ I I I Jill. i ' i 'i'i'i _L

— Frequency: 5 . Hz — —

- —

S —

— • 8 =

— /

—

— —

— —

— —

— —

— —

— =

— —

" I , I.I.I. I , I,I,I, —


4 10 40 100 i I i I MM

— 10

10"2 u

o

10"3E

— 10

— 10

— 10

./o

o XI

4 10 40 100

AK (KsiVin) 4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (10"6 in/cycle) 24.86 (min) 185. 25. 186. 30. 304. 35. 505. 40. 785. 50. 2015. 55.09 (max) 4556.

1.99 (min) 2. 2.5 3. 3.5 4. 5. 6. 7. 8. 8.86 (max)

0.0585 0.0591 0.102 0.170 0.285 0.492 1.53 3.69 5.76 7.36

10.3

RMS % Error

4.75


0. .5 .8 1.25

RMS % Error

8.07


0. .5 .8 1.25 2.

Figure 8.19.3.1.112 8-1285

R \ 7475 I Condition/Ht: T7651; 255F 4HR Form: 1.75 in. Plate Specimen Type: CCP (max load specified) Orientation: L—T Frequency: 10 — 15 Hz Environment: LAB AIR; RT


AK (MPaVin) 4 10 40 100

(1 of 1)

-2 10

10

o c-10-+

10 -o

10

10

10

-IM 'I'l'l I ' I 'I'l'l _L

— Stress Ratio: 0.8 — — - — — — — — -

— —

— —

— j -

— jdaF — — J? — — JSr -

— JS — W

=

—jdP — _cr —

~ I , I,I,I, I , I,I,I, -

10

o

AK (MPaVin) 4 10 40 100

-3 p 10 E

10

10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10-6in/cycle) 1.46 (min) 1.6 2. 2.5 3. 3.5 4. 5. 6. 7. 8. 9.

10. 12.78 (max)

0.0508 0.0596 0.109 0.249 0.526 0.986 1.64 3.34 5.36 7.76

10.7 14.5 19.1 46.6

RMS % Error

6.83


0. .5 .8 1.25

10

10

u 6^10-4

\ c _

Z 10 -a tz

■o _« — 10

10

10

= I ' I 'I'l'l 1 ' I 'I'l'l 3

— 10

— 10

o

10"3E

-Jio >

10

10

4 10 40 100 AK (KsiVin)


RMS % Error


0. —i 1 1—

.5 .8 1.25

Figure 8.19.3.1.113 8-1286


8-1287

7475 Condition/Ht: T761 Form: 0.04 in. Sheet Specimen Type: CNT Orientation: L-T Yield Strength: 59.8 ksi Ult. Strength:

Specimen Thk: 0.04 in. Specimen Width: 12 in. Ac-: Kjscc: Ref: 86212


1 4 10 40 100

b I ' I 'I'l'l 1 ' I 'I'l'l -Environment: 3.5* NaCI; R.T. -=) 10

10

-1 10

l_ 3 °10~ \ C

^10"

10

10

10 ■ i i HI

_0_

i I 11 Mi

— 10

o 1-

1

10

10

— 10

4 10 Kmax (KsiVin)

40 1 Vin)

00


RMS % Error

Kmax (MPaVin) 1 4 10 40 100

b I ' I 'I'l'l 1 ' I 'I'l'l

10

-I 10

10 sz ,w pr-

\ c

s • -3

■M 10 "O cz \ o

10

10

10 I . I.I.I. ' I I I III

10

10

10 ,T3

D

-3 10

10


100


RMS % Error

Figure 8.19.3.2.1 8-1288

Condition/Ht: T761 Form: 0.04 in. Sheet Specimen Type: CNT Orientation: T-L Yield Strength: 59.9 ksi Ult. Strength:

7475

Specimen Thk: 0.04 in. Specimen Width: 12 in. Ao: Klscc: Ref: 86212


1 4 10 40 100

= I ' I 'I'I'I 1 ' I'I'I'I -Environment: 3.3K NaCI; R.T. "d10

10

10 -1

sz \ c

10

10

o X>

10

10

10

-5

' I I I III

□

I I ll III

— 10

^°-i

0 I-

10 o

-3 10

10

Kmax (MPaVin) 1 4 10 40 100

10

10"

=3 . \— °10" \ c

-M 10"

D -o


10

10

I III

i ill

y

— —

— —

— —

— —

— —

Ill l

I i I.I.I.

—

10

— 10

10 S .c \

- _,X3 10

10

XI

— 10

4 10 Kmax (KsiVin)

40 1 jiVin)

00

Kmax (KsiVin) da/dt (10"3in/hour) Kmax (KsiVin) da/dt (10_3in/hour)

RMS % Error

RMS % Error

Figure 8.19.3.2.2 8-1289

7475

CM

at ■« <s es HP

HP S

^

B

B

2-5

"ö ^ <-. S3 e

CO

CO

CS lH

CO

9 EC

H

-0 B

a

Q

B

tf

B<0

5 Sfc

IB

0 o

I* S 8 O 0 ÜS3

BBS! BGK :.©:

i$

BäSL stss r* f*\

BOB sseqs

Sir*

x*0:i m BBSs

BB«!;

*4 ■:-:■:•:•»:•:■

BG8 ©■

S&S: Bî:

s«ss SSOK

BOB

IP ssests **SS

StSE

A

** Ä SÜS;

B;B©B

« 00

^£31 Bijp

::.»0:>

seas co

;*öB »n

03

10

io

mwm

£ o

P A:

»-'{>-'

si CD

CO

B cS

CD

E-<

*;©s B«3s

BSSs

S'OO!

SB»

S:Oi Bg*

K3 : 00

B*»S to

o © CQ ffli

set SSSS w mm

CO o o

§

05

CD © o

8 CO

ov SSsB

o>

o *§8B'

o CN O (N

© CM O CN

BESS S<«B

BÖS

;#; tfSJB:

B50K .■m:, mm

IO

CO A

CO A

SO

: d : «o

A

o ::«0

A

S«4 sses <o «4'

S*»B s;S5*

sjß?ä to

III : io

O IO

CO © IO

IÜ ■<N

Ill

IÜ 05 CO O

mm mm o

■so

O o CQ

Bîi BSSS

HSU

in :-:-:■:■:+:■:- : co :

E-t CO

B'SÄä; i*SS*B ::fie*'..

P

io o o

05

IO o o

05

O

CO IO 05

O

CO «o 05

o CO A

© CO A

IO CO

IO

IO CM

CO

IO

IO <N

00 ©

00 © CO

o CQ

O

I CS

CO

CO

CO

1-i CD

00

CO

I EH

05

IO CO

8-1290

CM

CM

WHJJJ! ::i::;:!:::!:! Wm ssss ™s;s; ;«:¥ÄS:

u «> «3 co c© CO <Ö to CO «s : «0 9 ::0 S3SK o o O SSCK o o fSSBfi «SOS

«B \;0 o o o o SJÖ; o o SSSS8 SSOK

£ Q »Cä; P Q p :s©5 p p s@ ;;*©¥ 111; IH Ü C 1Ü HI C2 o 1Ü fill

■w 9 «0 <*> 00 00 <« '••:»' 00 00 00 00 .''''•*♦.. I§£ t- t» ™;»>::;: *;**; t- t- äst*; JS-t*:*: 9 ee o» OS os or as Oi os as OS H P :;sjj|;; ig;;?*;: 1-H 1-1 $?f|;; ;;;***; iH 1-1 ••■■•■«. •^

Tes

t T

ime

(min

)

o

i o

mm. DO.

© O

o o

©

III sal*;;

o 11

o (N 00 rf O rH

o CM 00 ■<* o 1-1

o CM CM

«1

8 A © CO A

co CO CM

«1 +

lO TO

+

lO TO &» 3

co

S

rfl mm ::;:;:;:::4:;::: * t ■ 1 ! ill

i i i i ill ill

8 ällÄ ,M :>::::::::x:>::

1-1 1-4

1-5 © i-H

CO

i-5

CM iH

i-5 m : CO

:■:■:■:■:■:+:■:

o

Pro

d

Th

k

(in)

llfl TO CO TO to d

to d

»o d

U3 d d

to d

•a d

H

■ ii o to o » m CB

O OS o § s o

■r-t 1-*

o 1-5

o i-5

to o d d

«3 d

0 !:!:!:M;!:!;!;!

9 US •* «t la ■* »A w CO t- t- CO . g :: tli *» n> Iß ta to to ta xa SKttS* •*4 imaii M» to lO to kr Ui U5 kO ts 9 js~ at ;y:OJ: CM CM <N CN CM CM CM CM

03 :****£: *:*:*:*:

ä •£ i# J J Ä Si^S •J J -1 SÄ; *#* H#ä Q O :;:;:#* s#;;; O O ;g©s m%

9 Ä ^ £ £ IN ^ £ £ Q «:. lill » m ÜÜ 1« 03 n 111 S

§*|$ .* :

::v>";< iBSSS <. j

HI pK;K; »* » s » »- s >

s»| ? '•: fc H •e H . I« ? &< H

ig.: 0 Q

■". ü 5 ti e

■3 6

«)

3i,a ■* « 9 CO ® ä k2 c ^ 3 o

9 Ü J t H J An

CO w CO 3 Ei

g Sfe & -i Hg~ "1 P ̂

■* S T5

2 § 0- 3 0 -i fcfc j2

"S"8 0 9

S ■*» TO t

i- u

■i 3 3

t> o t- 5 B H Ä F- H O 9 ÜB

IO CM"

o OS

■s 9 R

& 9 fa

s c S 9 9

a 0 B OS 9 0

TS OS 09 9 e x 9

e 9 s 9 9 D. OS

8-1291

; 7475 (ALCLAD)

CM O

©q

o CO

W

3

<

O H

H s

w

■

O t-t

o

1

■

I*

■

!*£ o d

Cd S CO

E-< Cd Cd X co

8-1292

7475 (ALCLAD) |

O

O

CO

3 9

SiSSSS

HUMMMMUMNiHUN^^

lltl

E- Ed Ed X CO

Ed Ed a CO

8-1293

7475(ALCLAD)

CM O

tf H GO fe O 05

CO J • S> • o a

CO

w

• •

O

|

H

o

o

111

1 rJlpl

«si

■I o :J CO

tm

&:

i-'ia

m so

EH K Ed X CD

8-1294

7475 (ALCLAD)

CM O

e4

o CO

W

9

o

to CO

I

H • •

O

3 S O

BSI mi

o Hi

III

|:

tijtWitWjmwj

Bl

8-1295

7475CAUJLAP) |

CM O

o CO

K

<

O H

I s

o ig Is**

S«ft: lO

<'■ ^

ii 01 §

£ *:■»:•:•:■

^ 3» ^ 1 01 o

3 Ol Ol Ol «3

IQ

03 10

01 io ■* IO

• is«*! |||p|f§ n illüi llllil >•■<?' a oi

CO TO ••

$ <

0) o o

H p jgj swslilisg ©

c ie

§ M «*

W

*»

'&*.: ^äaps^Ä ei M Ol Ol N 01 Ol Ol

10 IO IO IO IO IO IO

/#■

o o o eg OJ o o Ol o o o o o o o o

op E-l a Ed as CO

EH Ed ta X CO

liiiiiii J cw H • • fc O « . '":■:-"-'■ ■:'■■":■::>■■:::'"* :;

H 3illlplÄ£$ g ■■■■::■ Z ;;'

•:&"W:-.-.

§a ^^^: pel O 1

111

8 «3 t- 6-

8-1296

7475 (ALCLAD) ;

CM O

CO

o 00

a

ä

■8

■

O

5

I o

■p ill

iiii o I« ill

1 ■ •Si

1*1.:i

y:Ö5:';

M

il6

M*iMMUMM*MMN*M4M!UMM£hkhH!M*MW

6- H Ed X 03

s

ca

x CO

to

8-1297

7475 (ALCLAD);

ei o N

GO

a

03

rf

M

wg

"a

a w feo

S

IB

«3 lä'

&i I1

ii.

i-s*

M g 6° Ji

as

Jl

S3

Jl

5 Q

ft,

8 Ö

o

s$

8-1298

7475 (ALCLAD) I

CO CN CN CO CO CO eo eo CO eo eo eo eo eo CO CO m

CO & <w & CN CN CN CN CN CN CN CN S3 § 00 CO CO CO CO CO CO 00 CO CO CO GO 00

1 CO S3 s £ en i> en

o cn

o en a en a en

e'- en en en en en s &

o

2> J3 iM t J 1

rf

fen U

rfS 33

C o O

» 1 j i | i I

IS * en i> CO CN e- © CO to eo o

O) Oi 00 V en co en q CO

eo' oi CO tö ■V

si oi en' CN o Oi en en r» eo CN

2> V CO I : ! , ,

t 1

a a.

fea u

j T3

C o

CD

to 00

! i j i 1

M * ^

rf J^ t> 00

to to lO CO

CN CO to CM

CO CN

CO CO s en CO

en r- CO

CO en eo CO

CO S

*i CN

||: e> CO CO CO CD to to to CD © CO CD

^"■k

Si j pi

© o O © © © © © o 00 to CO ■v CN t- to to to »Q

z ■-■»>

5 CO eo CN CN E; CN

Ü

i CO 03

O J?

o S

to CN eo CM eo V ■V V ■V eo eo ■v V *u- V

! 1 : l : ! t : : 1 I j 1 1 t o m

>>:W.

3-* - •£•&!•: ö ^ •w ^. _ ,-* CD O) CO S3

«£ si-

U 3 s e P CO 8 10 s CO s CO CO CN £ ■v en s «

^ OKO"

2

** t- ■v v CN CN CM CN CN CN CN CN CN CN 04 CN CN CN

1 g54 1 CD

o

CO

o 8 CO

O eo

O S

o © to

© CO CO

eo CO

CO O

8 O

3. ©

8. | o 8 s

z ««a « ^

CN en Oi CO 00 CD CO

£ 8 8 s s s s s s en en CN CN o o 8 o

3 ü

© o o o O © o o o © O © © © O o O o

•T* Ed C ■""^ s CO

CO CO CO

o o o © o © o o © © © © © o ft. § - * 5 © X X X X X x X X 8 X X CD- 8 o CO CD CD lO lO eo eo eo eo eo CO CO CO CO eo eo CO CO CO

3g? CO eo CB en CD CD CO CO CO CO CO CO CD CO o o CD «0

Bgg eo eo CN CN ID CO e- e- CO CO CD CO c- i> CO CD e» e» c- e» C> C»-

8* F- ;p

E- E E- t t F H

gs° J o J ■i I Jl i j a Jl

feis: f-J c o u

frJ *J e N o- *« gg£ K K JO 0 0 CO c D c O o

6 s Hi 8 8 S s s s 8 8 00 CO s a 8 8 8 8 CN CN

E" o o o o o o o © o © © o O © O © O ©

Q

Q ft. g * 8 IB * 3 g i S

2 : : . CO u GO t ß c 0 CO c 0 CJ Q

Eg ,_ ^ •r* _ p c

(5 CO i 0 i 0 P 1 D i 0 i P P

8-1299

7475 (ALCLAD)

rf

e

!

1 eg

2 fid

§ O w a, CQ

5> 2 w feo

*8

15

Is

J1

|8*

5 =« . tu

5 =«

i*

P IS ^

s Q

a. o

o

51 BS

CO u

8-1300

7475 (ALCLAD)

O

6 c©

H

00 00 CO CO CO CN CN CO CO « CO CO ee CO CO CO CO « * * a * * s S CN CN CN

§ CO 00 CO CO CO CO CO CO CO CO CO CO 00 CO CO 00 00 00

1 s ff ff H K eo eo CO R CO CO s s 5 eo R CO s 2 © cn CD en

2> r° v ! ! 1

fa?

feo o U

*i T3

C o O

to ©" t» ! ' ! ! I !

i3 * 1A

• . * cn

• o CO l> CO CO S

^5 Ol o © 01 eo to CD CO o to CO c* r- 00 •w CM CO to CO e- t- CO

© en CO

cn IO IO

S © GO en cn CO t- •* -

5> :P 10 , .

I i 1 1

a a

go o

Ji T3 C o

CO I • : i I !

M ^

rf J. a © ©

od

CO

w CO

OS ©

CN CO

to

CN CO

CN 00 CO

CN

to CO

© o cn

© to

o p e*: to ©

l>

s 1 lO v to to to to lO to © to ©

^ 3U

fj o o o o o © o © © g e'- CO c- t> t- CO c- ■V CO «, » :;::::W

■KT,:

t- CO l> en CN CN CO CN CO eo CO eo eo eo CO CO ■^*

&* © 3 0

01 ' J ' oi '• ' i i i i 1

■■ i J t

IS

FIN

AL

(i

n.)

8B, & o o o © © © c- ^ v ^,

S3 ll s s 3 8 CM

to s CM to eo % 8 s £ 8 CN

l>

~ t» to CO to V ■V CN CN CN CN CN CN CM «M CN CN CN

g St«-;- ':S©:!

I 1*

5 i 1 § o 8

©

8 © 8

©

8 8 © © CO

O CN o © to

© t>

O 3

O o CO

§ •M CO V CO

■"" CO* CO *-. '" *" *" ~ — «-« - ~ «M •"* Z si«

cn Ol CO cn eN ^

ssp: 8 SB s 8 8 8 s s s 8 8 en cn

CN CN eo CO 8

i 8

o o © o O © © © o O O o © © O O o o

£ ~ £ s s o O © © o o © © o © p O ^ <? 2

D. § .5* o © © o o 00 CO X X X X X X g X g g g OD * w V to CD CO CO to to CO « CO CO eo CO CO eo CO CO eo

9|i to tO 1ft to to to to © © CO © CO CO cn © © CO CO CO

CO CO CO CO t» l> •I CO CO © t> l> CD CD CD © e-

o _ •c w g

"] J J ^ J J -: -4 fe° h e fi Ir« e*. fi Ir«

pc w o

$ c 1

gg^ c s 0 0 CO CO 00 CO eo

6 Ö

B? s 8 8 8 8 s S s s s 8 CO 00 S3 8 CN CN 8 £~ o o o o o o o © o o o © © o O O o ©

Q O

§ 1? " I " i 1 1 V 1 1 o £ ° . . X b. to u 0

' CO CO CO CO

§1 ** i rp ^ ^

II H<S

Cf > g 5 e © tr- p e s

8-1301

7475 (ALCLAD) I

O Ü

CN • o eN CO

3

os CO CO CO CO CO 0) CN eo CO eo eo

CN

00

CN to 00

CN CO 00

s to CO

s CO 00

s CO CO

s to GO

CN CO CO

CN to CO

CN © CO

CO CO

© CO

© CO

% CO

CN © CO

CN

S CN CN

s

I P eo CO CO p CO CO CO CO p-

CO CO CO p CO p P P p p OJ Cft o> OS © en © cn en

tM " **

2> , , 1 ! 1

ä

fee

rfS i i i j I I

s

• to ©

• to

CN

• CO 00 to

« to c» d CN

CO e- tri ©

• CN ©

CN C3

* c- 00

© ©

• tO ©' cn

* CO

CO ©

CO cn LO

* LO

CO ©

• © CN

d ©

* to

© ©

• ©

CD ©

* CN 10

CO ©

• CO o> to eo

* ©

eo

* © If

eo

o ©' CN

5> , . 1

6.

fed

£ ( | a hf M

M *

JS • * * * • * • • CD

• CO

• CO

• ©

• ©

• s

• • CN % ■jr F"=* CO © c- CO V «?

» s -.a to

o to to to to

to 10 tO

© to to to

© to s CO

to to to 10 B s s

*-N jigsed; © © © o © © © o ©

ÜÜ e'- t- CO 00 CN V to © CN «•1

3 teg

OS

■*''K:

isi z 0)

¥::«■:

V *c en CO V

CO CO CO

CO CO CO

o eo

a CO

© CO

© CO

CO CO § eo

C- CO CO eo*

gi°* j 1 ! : 1 : i ; i ; ; : i ; : t i i i

o :¥;0::

s:a: ■v

FIN

AL

(I

n.)

2a, ^ lO CN © V *-. V V © o o o CO t»

t» CN W

© s s % 00 s 5 © & a Ö a * ■v y V

a s

:*;*■■■

■»«>;

Si

CN M CN CN *"' ^H *"* ** CM CN CN

" CN CN a CN «N CN

Mi § o to

© o lO © CO

o ©

o cn

to CO

LO O © to

© to

to CO

© CO s to to

O i

9, — *■ w — *■ ~ •" ~* ** *" ■" •"• '" *** ** ~ ** *«

a z lb. ^ © © CN CN CO CO ■* V © © •

1 © s CN w s 8 s 8 8 8 8 8 8 s cS s s S $

Ü w a,

1 = o o o © o © o o © O Ö © o © © o o © ©

£ ~ 0 o o © © © o O © © o © o p o o o

Si & 8 g 8 8 8 8 8 a 8 8 a SS ©■ 8 s s © 8 s cc CO eo eo eo CO CO CO CO CO CO CO CO CO CO CO eo eo CO

YIE

LD

8T

R

(Ksl

) to V ■* to to CO N CN CN CN to to © » to «? t* C- o © © © © © s CO

CC V CO CO to CO e* t- r- C0 c-

ü M J J J J 2 J)

J

§S° 1 E I H E fi

TE

ST

TE

MP

(°

F)

1 O to c 0 < N «0 c D G 0 c o

6 $? s 1? CN CN s 8 s 8 8 8 8 8 8 8 8 s 8 8 s Es o © o © o o o O O O © O O o o o O o o

o c 8 c 0

i i g c 0

1 CO 0

| J i c

0

1 CO

§1 Eg ^, e 0 eo

? D c-

s £ 0 s i t e u g 1

8-1302

7475 (ALCLAD)

O U

ON • O N

a 3

CO CO CO CO CO CO CO CO CO CO CO CO CO CO CO CO CO eo CO tN CN (N

S CD © © © © © © ©

00 00 CO GO 00 CO CO CO CO © © © © © CO

1 CO CO CO £? E? S? S3 B E3 & c» < OS © en o> en en O) © © © © ©

a

5> o | I [

rf

fea

4 j l CO

- CN OS

1 ! I

E ©

2 CO

©

« ©

00 CN *

i eo t> t> t> CO c- t> © CN to © © ©

10 t> tO to

©' CO © ©

t» ©

© © to tN ©

o o to S3 8 & ~ " " " " " ~ " *" ?•« "

2> tf t>

fi.

•v o

f5 c o

■J cc ©

M * Ä

rf >U • s

* ©

* CO

* o t> CO

CN © tN to

© ©

© CO CO

© tN

to to to

• • CN

* * ©

s ^ if t> to

to to

CO to

CO to 00

CM © CO

© CO CO

© ©

© to ©

t> t>

© ©

to © to

to © ©

© to

*^

31J & © o © o © © © © o © © © o © © © © 8 o

CO © ■V V

_ to fa!

i -.::vr-'

t> t> CO e- a> t* CO CO CO © CN tN t> © f- © o CO CO CO CO CO © ">r V

s~ o © © s M* i i i i •• i i CN © CN I 1 1

IS

2

FIN

AL

(I

n.)

2a, ;:v:Mff V CO o to o o © © o o O O S *£

11 II:: ::xb.:

S

a Si & B & 8 a CO a 8 s CN to s 8 V s © ©

§

« CM es tN CO CN CO to t» TT V r— © to V CN N <N CN

o CO

Iß CO

CO eo © CO ©

ei

O

8 © 00 ©

CN

©

CO CO

©

s ©

8 O

8 ©

8 ©

8 § © w

o © S i

z

TH

ICK

(I

n.)

B to to to CO tN CN tN CO CO CO CO CO CO © CO eo

p s s tN CN s S 8 8 8 * * 8 8 S s s s *

o © © o o o o o o o o O o © o o © ©* o

a o O © o © © © © © O o © CO CO CO CO © © © © ©

GU B B * 00 CO CO CO 00 © © © © © ©

CO 03 CO CO CO to to to to to to to to to to to CO CO eo CO

III ^ r- 00 CO o © © o © © © © © to © V V p- •X

© o CO CO tN CN CO CN tN CN © © to CO CO © © © © © © © © © w © ©

g« G J f- F f F a. o IS

J] e J) I s 5

fe|£ e »1 e M H c

£g£ 0 0 BJ C i 0 0 0 0

6 D

§2 s S3 S3 8 8 s 8 8 8 8 8 <S 8 S S s 8 a ©

g~ o © O © © © © © o © o © o o o o © o ©

Q

CL.

£ E J i i 1 " B " ! ' I

G ■j en 0 2 Q Q 0 3

I! Eg r © c ' c 3 c •

t t s p ? e

8-1303

17475 (ALCLAD) |

O Ü CN

e5 CO

W

£ eo CO CO CO CO CO CO CO CO eo eo

S CN CN CN CN CN CN CN CN CN CM K CD CD 6Ü CO 00 00 00 00 CO CO CO CO CO

P R S CO R R CO eo CO CO CO R CO c^ R R R R R eo

2 en en en en © ©

5> is 1 ; 1 © eo

»

tf *i j i © ©

IS

s

• eo to

« * # en

• o

* eo

* to CN

* © CO

* en

c- • CD CO

to CO

• © CO & 5*

to * eo lfl

to to en

CN en

o o

© O

CN o © cn en © m CO

© eo 00 00 © 00

0. c

3> Is * 1 : oq

^ : j

CD CN CO

UJ *

rf 4 ;|ö': ©

CO to 10

to © CO to

en to to

en o

to

o to CD to

CO

CO to

CO CO

eo to

CD

CO CO

CO CD

CD CO

ft CD to

CO

CO q CN CO

eo CM

en CD

© CO 00

00 ci

to CD

en cc CO

00

to

^ :•:•:'K: 8 © © © © © © © o © ©

CD o CO e- CN en CN eo :::"r;W :

m

00 eo

en eo

CO eo

CO CO

CO eo eo

CO CO

en eo

eo eo

CO CO

© CO CN

to to

to CO

CO to

o CO

CO eo s

■Sä* | * • ! j j : ; j j I j j I 1 o SJSB;

IS ¥:-:0:. u ^>

FIN

AL

, (I

n.)

i: **U:

:*©:: ::?:;0;;

•5

_ to t- © o © O o © o © p o t»

B3

CO s s $ s s 8 S S 8 SS CN ä ■V *«• & s s

^ « CN r- •M (N N CN CN to to eo e> ** eo

" V V to

p 00 CO

to CO

o O O C-

©

8 © to

©

8 ©

s o g

©

© s § 8 § e^ 1 ^^ ri ,_; ^ *■- r-i ^m mi W* V ^" eo © m* eo *m V CO to

£ z CO CO 00 CO CN CN CO CO CO eo CO eo eo eo

§ CN s 8 s 8 8 s s 8 ä 8 g IS 8 8 ©* ©* ^

S £~ O o o o o O © © O o O © © © O o © o

£ ~ Q o o o o O © © © © © © o © © o © CO

© CO

e< g X X X X X X X CO CO GO CO CO CO CO CO GO

as CO eo CO CO CO CO CO CO to to to in

3g? © en o o en en to to to to to 10 to © © © © ©

gig © o © © V ^» V CO CD CD CD CD CD CD CD CD CD CD CD

E E f J 3 I 3 i

TE

ST

TE

MP

P

F) e »a i 0 u ■s E

c C C

B* s 8 8 8 8 8 8 8 8 8 8 8 8 S 8 8 8 8 r o O O o O O O © O © O O o © © © O o

Q O Si

o E

J j

0 5 1 J u 5 0

i

5S si c 5 e ■ c 3

i t fc t

8-1304

! 7475 (ALCLAD)

u fc o o *^> N

o

a

eo rt © CO CO CO CO CO CO CO CO « « « CN CN CN CN

3 CO CD CD CD CD s 00 CO CO CO CO CO CO © 00 © CO CO CO

I eo CO CO PS

< OS OS OS OS © © © OT © © © © D

is 10

rf

04

rfS C-;

© * i j j 1

IS # ©

^ OS "«r o CO in CO CO © w o « OS © t^ p- © CD CN CO CO

© GO OS to © © © © o o © " "■ " ~ "

5> J* Ed

00

P.

feo

f< OS

M *

JS ,p to ©. U5 C* © © CO

l£ ^f— so: V CO •V o © o •v t- • a CO CO CO CO s III to to 10 ifl © to © © u © IO ©

^»\ IV 1 o o o o ©

CO OS to O C- ■V © CN © o t* ». to ata

s:«;-

sat: a;

CN CD CO CO t- CO t-

an «

OS

CO CO CO CO CO CO © CO CO «

s j r j J , 1 , i

IS «Q . : U

l£

:?so;;

ft!

i 1 o> CO

CO

s CO CM

© © ©

s CD

5 CO

S5 © 8

© 8

1 V V CN CN CN N CN CN CN CN CN ** CN CN

lli o £ CO

o s CO

© w JO

CO CO

O

CN

© CO

C- ©

o © 8

IO CD

© ©

O © ©

z OS as 00 00 CO CO to CO u s s B s OS CN CN 8 8 8 8 s S

* Ü

o o O o © o © © © O O O © o

u

w c ^ S o © © © o © © © O o

0. § -* 00 CO s 8 8 8 a a a s 8 8 g ä CD s ~ « CO CO CO CO CO CO eo © © « CO

gig CD CO v V 0> © © © to © © » © © W w OS OS M CN

* CD © © © © © © © © ©

s« 3 3 J 3 „

1 a. o e i C r t f

i^£ t e 4 c »J e ■i u

ee^ 0 i 0 a a a 3 a 0

8 s B? 8 8 s s CO CO 8 8 s 8 8 8 g 8 g~ o © o o © © © O o O © © o ©

Q

a - OH

0 h

5 i i " : < B » 3 a 3 cr 0 2

o 2 £p c c 5 CI

? e E P P E

8-1305

R 7475 (ALCLAD)

Condition/Ht: T61 Form: 0.09 in. Sheet Specimen Type: CCP (max load specified) Orientation: L-T Frequency: 13.3 Hz Environment: LAB AIR; RT

1 AK (MPaVin)

4 10 40 100 i I i I >|i|—

(1 of 2)

= I ' I 'IT — Stress Ratio: 0.0

4 10 40 100 AK (KsiVin)


10. 13. 16. 20. 25. 30. 35. 40. 45.47 (max)

5.07 6.37

13.6 20.6 31.8 56.8

109. 219. 433. 803.

RMS % Error

5.95


, , , .8 1.25 2.

-1-

.5


AK (MPaVin) 4 10 40 100

I I I I I i >l

(2 of 2)

4 10 40 100 AK (KsiVin)


10. 13. 16. 20. 25. 27.65 (max)

3.60 3.68 4.92 6.80 9.31

12.4 23.2 35.0 57.7

169. 294.

RMS % Error 14.79

Life Prediction Ratio Summary -lEft xo

—r— .5 .8 1.25

Figure 8.20.3.1.1 8-1306

Condition/Ht: T61 Form: 0.1 in. Sheet Specimen Type: CCP (max load specified) Orientation: L-T Frequency: 13.3 Hz Environment: LAB AIR; RT

7475 (ALCLAD) R

Yield Strength: 71 ksi Ult. Strength: 76.8 ksi Specimen Thk: 0.101 - Specimen Width: 4 in. Ref: 86213

0.102 in.

AK (MPaVin) 4 10 40 100

(1 of 2)

10

-3 10

-2> r-

o

^10"+

\ c _

10

"o , — 10

10

10

- I I I ljlM I I I .pill -I


— —

— —

— —

— —

— —

II I I

I ■ I,hi, —

10

io"2 u

-3 | 10 E

10

— 10

— 10

x>

o XI

4 10 40 100 AK (KsiVin)

10

10

O

^10"4

c _

z: io -a tz

■o _Kl— 10

10

10


4 10 40 100

10

— 10


— —

— —

— -3

— O —

— —

~ I , I, I,I, I , Mil, -=:

io"2 ° o

,0-1

- _x"0 10

— 10

— 10

o

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (I0'6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 8.88 (min) 3.54 9. 3.73

10. 5.60 13. 13.3 16. 22.3 20. 33.0 25. 54.4 30. 118. 35. 248. 40. 431. 43.48 (max) 664.

5.54 (min) 2.08 6. 2.69 7. 4.26 8. 6.12 9. 8.27

10. 10.7 13. 20.2 16. 32.7 20. 53.0 25. 123. 29.02 (max) 219.

RMS % Error

5.85


i—

0. .5 .8 1.25 2.

RMS % Error

5.39


0. .5 .8 1.25 2.

Figure 8.20.3.1.2 8-1307

R 7475 (ALCLAD)

Condition/Ht: T61 Form: 0.04 in. Sheet Specimen Type: CCP (max load specified) Orientation: L-T Frequency: 2 Hz Environment: H.H.A.; RT

1

-2 10

10

O

6^1 o"+

10

10

10

10

AK (MPaVin) 4 10 40 100

-1—I I I I llll—

(1 of 2)

i ' i M'l'i r - Stress Ratio: 0.05

' i i i in ' i iiHI

10

— 10

J2

u

—j —

— 10 E,

z 10

— 10

— 10

o

4 10 40 100

AK (KsiVin)


9.88 15.7 27.0 37.2 72.5

130.

RMS % Error

6.09


0. —i 1 1

.5 .8 1.25

Yield Strength: 65.7 ksi Ult. Strength: 73.6 ksi Specimen Thk: 0.04 in. Specimen Width: 23.97 - 24.01 inj Ref: 86212

1 AK (MPaVin)

4 10 40 100

(2 of 2)

- I ' I M'l'l I ' I Tl'l — Stress Ratio: 0.25

10

10

JD — O _

fricf4

10 "D ZZ

10

10

10

-7

I I I I III

10

— 10

-Jio"2£ o \

-3 I —ho E

10 o -a

-5 10

— 10

4 10 40 100

AK (KsiVin)


10. 13. 16. 20. 22.61 (max)

10.5 11.1 13.3 19.7 39.1 69.6

109.

RMS x Error 13.39


i 1 1—-—i 1—

.5 .8 1.25 2. 0.

Figure 8.20.3.1.3 8-1308

I -7 ,- 75 (ALCLAD \ I I /1- > 'R

Condition/Ht: T61 Form: 0.04 in. Sheet Yield Strength: 68.6 ksi Specimen Type: CCP (max I oad specifie d) Ult. Strength: 74.5 ksi Orientation: L—T Specimen Thk: 0.04 in. Frequency: 2 Hz Specimen Width: 36.03 - 36.04 in. Environment: 3.5S6 NACL; RT Ref: 86212



1 4 10 40 100 1 4 10 40 100

-Ml 'I'l'l I ■ I 'ITI _L - I ' I 'I'l'l I ' I 'I'l'l a

— Stress Ratio: 0.05 10 — Stress Ratio: 0.25 — 10

10"2 io'2

-1 10

— —

-1 10

io-3 03

io"3 - O — o O o "° -6 T3 "° -6 "O

10 10

— -5

10 -S

10

io"7 - io"7 -

— -6

10 — -6

10

irf8 " I , I,hi, I , LI,I, - m"8 " I , I,I,I, I , I,I,I, -

1 4 10 40 1C )0 1 4 10 40 100


AK (KsiVin) da/dN (10 "6in/cycle) AK (KsiVin) da/dN (10-6in/cycle) 13.24 (min) 47 7 11.34 (min) 73.7 16. 76. 1 13. 69.4 20. 106. 16. 88.6 25. 151. 20. 117. 30. 217. 23.86 (max) 194. 32.52 (max) 252.

RMS % Life Prediction Ratic 3 Summary RMS % Life Prediction Ratio Summary Error □ Error a

3.81 0. .5 .8 1.25 2. 5.03 0. .5 .8 1.25 2.

Figure 8.20.3.1.4 8-1309

R 7475 (ALCLAD)


1 AK (MPaVin)

4 10 40 100 i I i I >IM—

(1 of 2)


4 10 40 100

AK (KsiVin)


10. 13. 16. 20. 25. 30. 35. 38.72 (max)

6.21 6.45 8.56

13.3 16.7 22.0 31.0 54.6

170. 487.

RMS % Error

6.50

Life Prediction Ratio Summary CD

0. .5 —T-

.8 1.25


AK (MPaVin) 1 4 10 40 100 r=—[—i I i Mill

(2 of 2)

4 10 40 100

AK (KsiVin)


10. 13. 16. 20. 25. 27.65 (max)

3.40 4.66 6.32 8.28

10.5 17.5 24.1 33.8 75.1

116.

RMS % Error 11.06

Life Prediction Ratio Summary O 2H

0. —r~ .8 1.25 2.

Figure 8.20.3.1.5 8-1310

Condition/Ht: T61 Form: 0.04 in. Sheet Specimen Type: CCP (max load specified) Orientation: T—L Frequency: 2 Hz Environment: H.H.A.; RT

7475 (ALCLAD) R

Yield Strength: 68.6 ksi Ult. Strength: 74.5 ksi Specimen Thk: 0.04 in. Specimen Width: 23.92 Ref: 86212

24.01 in

AK (MPaVin) 4 10 40 100

10

10 03 —

U

6^10-4

■ZL 10

10

10

10

_ I I I Tlll I I I ITI -1 — Stress Ratio: 0.05 —

— —

— —

— / —

— —

— —

" I , I,I,I, I , I,I,I, —

(1 of 2)

10

-1

— io"2«

io"JE

- _^"o 10

— 10

o

10

4 10 40 100 AK (KsiVin)

AK (MPaVin) 4 10 40 100

10

10

o

0îo-4

10

xi _K — 10

10

10

_ I « I 'I'l'l I I I in'! -i — Stress Ratio: 0.25 —

— —

— —

— —

— -=

— —

" I ■ LI,I, I < l:l<l< -=

(2 of 2)

10

— 10

0)

o

-3 i= 10 E

-Jio > ■o

— 10

— 10

4 10 40 100

AK (KsiVin)


30.5 30.3 45.1 77.8

111.

9.46 (min) 10. 13. 16. 20. 22.36 (max)

9.31 10.8 19.3 30.2 56.4 82.6

RMS % Error

3.29


0. .5 .8 1.25

RMS % Error

1.99


0. .5 .8 1.25

Figure 8.20.3.1.6 8-1311

R 7475 (ALCLAD)


1

10

10

O

frl o"4

10

10

10

10

-5

AK (MPaVin) 4 10 40 100

1—i I i I MM—

(1 of 1)

i ' i M'l'i—r - Stress Ratio: 0.05

' I i I iI Mi

— 10

— 10

O

— 10 £

- _L~O

10

10

10

o ■a

4 10 40 100 AK (KsiVin)


746. 1877. 5635. 17603. 20509.

RMS % Error

8.68


i—

0. .5 .8 1.25

Yield Strength: 65.7 - 68.6 ksi Ult. Strength: 73.6 - 74.5 ksi Specimen Thk: 0.04 in. Specimen Width: 12 in. Ref: 86212

10

10

o u 10

-Z. 10

10

10

10

AK (MPaVin) 4 10 40 100

' I M'l'l 1 ' I 'I'l'l

' I I III! Li ■ ''in

10

10

îo"2£ u \

-3 | 10 E

- -1.T3

10

— 10

o

10

4 10 40 100 AK (KsiVin)


RMS % Error


0. —i 1 1—

.5 .8 1.25

Figure 8.20.3.1.7 8-1312

7475 (ALCLAD) Condition/Ht: T61 Form: 0.04 in. Sheet Specimen Type: CCP (max load specified) Orientation: T—L Frequency: 2 Hz Environment: H.H.A.; RT

R

Yield Strength: 65.7 - 68.6 ksi Ult. Strength: 73.6 - 74.5 ksi Specimen Thk: 0.04 in. Specimen Width: 35.98 - 36.02 in Ref: 86212

AK (MPaVin) 1 4 10 40 100

[1 of 2)

10

10

J£ —

o o 10 \ c _

10

x» _B — 10

10

10


— —

—

/

—

— /

—

— —

— —

" I , I: I, r, I . 1L —

— 10

— 10

AK (MPaVin) 4 10 40 100

1 ' ' I'l"

(2 of 2)

10"2 U

U

— 10 E

— 10

— 10

4 10 40 100

AK (KsiVin) 4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 11.39 (min) 13. 16. 20. 25. 30. 35. 40. 41.52 (max)

10.3 14.6 24.2 40.5 69.6

146. 398. 591. 519.

8.44 (min) 9.

10. 13. 16. 20. 25. 30. 32.55 (max)

4.19 5.90 9.09

17.5 28.0 62.9

144. 279. 481.

RMS % Error 11.47


i 1 \ 1 1—

0. .5 .8 1.25 2.

RMS 56 Error 20.63


0. .5 .8 1.25 2.

Figure 8.20.3.1.8 8-1313

R 7475 (ALCLAD)

Condition/Ht: T61 Form: 0.04 in. Sheet Specimen Type: CCP (max load specified) Orientation: T—L Frequency: 2 Hz Environment: 3.5% NACL; RT

1

10

10

O

6^10-+

-z. 10

10

10

10

AK (MPaVin) 4 10 40 100

-1 1 I I I Mil—

(1 Of 1)

i- i ' i M'l'i r Stress Ratio: 0.05

■ i ' i in i l i I Hi

— 10

10

.5?

ü

10 E

10

10

10

■o

o X)

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (I0"6in/cycle) 15.18 (min) 16. 20. 25. 30. 33.11 (max)

69.1 73.7

104. 154. 212. 248.

RMS % Error

2.07


r~ 0.

—I 1 1

.5 .8 1.25


10

10

u 6^10-4

TJ 10

TJ 10

10

10

pr-i—i 1 i |i|i

AK (MPaVin) 4 10 40 100

-l—i i i mil—m

' i i i in ■ i 11 in

— 10

— 10

io"2 ° u

-3 | 10 E

- _./o 10 o

■o

-5 10

10

4- 10 40 100 AK (KsiVin)


RMS % Error


i 1 1 1 1— 0. .5 .8 1.25 2.

Figure 8.20.3.1.9 8-1314

7475 (ALCLAD) Condition/Ht: T761 Form: 0.04 in. Sheet Specimen Type: CCP (max load specified) Orientation: L-T Frequency: 2 Hz Environment: H.H.A.; RT

R

Yield Strength: 59.8 ksi Ult. Strength: 68.7 ksi Specimen Thk: 0.04 in. Specimen Width: 23.98 - 23.99 inj Ref: 86212

AK (MPaVin) 1 4 10 40 100 pr—1—i l i l till 1—i I i Mil

(1 of 2)

10

--3 10

U

10

10

10

IT Stress Ratio: 0.05

10-8L_J_L_L1LL I i i 1111

— 10

10

IcfE

10

10

o

AK (MPaVin) 4 10 40 100

10

= 4 10 40 100

AK (KsiVin)

10

10

o >•..„-•♦ u 10 \ c _

Z 10

-o _K I— 10

10

10


— -=

— —

— —

— —

— —

~ I , I,I,I, I < I,!,I, -=

(2 of 2)

— 10

10

10"2^ o

,0-1

X>

— 10

-6 TJ 10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 10.65 (min) 5.71 13. 12.2 16. 18.0 20. 25.1 25. 44.0 28.69 (max) 71.9

9.82 (min) 10. 13. 16. 20. 22.74 (max)

11.9 12.0 14.4 23.0 44.6 64.8

RMS % Error

6.32


r~ 0. .5 .8 1.25

RMS % Error

4.39


0. .5 .8 1.25 —I-'

2.

Figure 8.20.3.1.10 8-1315

R 7475 (ALCLAD)

Condition/Ht: T761 Form: 0.04 in. Sheet Specimen Type: CCP (max load specified) Orientation: L—T Frequency: 2 Hz Environment: H.H.A.; RT


AK (MPaVin) 4 10 40 100

i I ' I mi

(1 of 2)

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (I0"6in/cycle) 11.08 (min) 13. 16. 20. 25. 30. 35. 40. 40.71 (max)

7.82 12.2 19.3 30.9 53.3 91.1

169. 239. 235.

RMS % Error

4.61


0. .8 1.25

AK (MPaVin) 1 4 10 40 100 E=—1—I I I I 1

(2 of 2)

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (I0"6in/cycle) 8.57 (min) 9.

10. 13. 16. 20. 25. 30. 31.95 (max)

6.51 7.21 9.02

16.2 26.2 49.1

108. 186. 270.

RMS % Error

3.30


1 ; 1

0. .8 1.25

Figure 8.20.3.1.11 8-1316

Condition/Ht: T761 Form: 0.04 in. Sheet Specimen Type: CCP (max load specified) Orientation: L—T Frequency: 2 Hz Environment: 3.5S5 NACL; RT

7475 (ALCLAD) R

Yield Strength: 59.8 ksi Ult. Strength: 68.7 ksi Specimen Thk: 0.04 in. Specimen Width: 35.96 — 36 in. Ref: 86212


10

10

ü

o 10

Z 10

-o 10

10

10

.-6

AK (MPaVin) 4- 10 40 100

i I i I HH 1—i I i I MM—

(1 of 2)

i i i i iii

■/■

I I iI Hi

— 10

— 10

0)

— 10 E

10

10

10

o

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10_6in/cycle) 13.39 (min) 16. 20. 25. 30. 33.27 (max)

42.7 58.8 86.7

123. 173. 198.

RMS % Error

1.58


0. .5 .8 1.25

AK (MPaVin) 1 4 10 40 100

= I ' I 'I'l'l 1 ' I 'I'l'l — Stress Ratio: 0.25

(2 of 2)

10

-3 10

u

^10"4

10 X3 —

XI 10

10

10 i I i 1111 I I I I Ml

— 10

10

-1

u

u,„-i

^J10 \

— 10

— 10

4 10 40 100

AK (KsiVin)


51.8 59.4 84.5

126. 194. 204.

RMS % Error

1.18


0. .5 .8 1.25

Figure 8.20.3.1.12 8-1317

R 7475 (ALCLAD)


AK (MPaVin) 1 4 10 40 100

b I ' I TIN—I ' I M'l'l

(1 of 2)

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (I0'6in/cycle) 7.75 (min) 8. 9.

10. 13. 16. 20. 25. 27.14 (max)

1.17 1.60 3.84 6.13

11.6 20.6 32.9 47.0 58.5

RMS % Error

7.29

Life Prediction Ratio Summary a □

i 1 1— 1 1—

0. .5 .8 1.25 2.

Yield Strength: 66 ksi Ult. Strength: 74.5 ksi Specimen Thk: 0.09 in. Specimen Width: 4 in. Ref: 86213

AK (MPaVin) 4 10 40 100

i I i Mill

(2 of 2)

4 10 40 100

AK (KsiVin)


10. 13. 16. 20. 25. 25.76 (max)

2.11 2.60 4.25 6.07 8.06

10.3 19.0 29.7 48.2

118. 136.

RMS % Error

4.88


i 1 1 1 1—

0. .5 .8 1.25 2.

Figure 8.20.3.1.13 8-1318

1 -I A- 75 (ALCLAD > 1 I / H- > 'R

Condition/Ht: T761 Form: 0.04 in. Sheet Yield Strength: 59.9 ksi Specimen Type: CCP (max load specifie d) Ult. Strength: 67.3 ksi Orientation: T—L Specimen Thk: 0.04 in. Frequency: 2 Hz Specimen Width: 23.94 in. Environment: H.H.A.; RT Ref: 86212

AK (MPaVin) (1 of 1) AK (MPaVin) 1 4 10 40 100 1 4 10 40 100 - I I I ipl'l I 1 1 'ITI J- — I ' I ' I' I'l I ' I ' I' Ml -1

0 0 — Stress Ratio: 0.05 — 10 — -^ 10

10"2 — 10"2

— —

-i 10

— —

-1 10

ID"3 <u la"3

0) _ -2 -77 -2 T7

<v — — 10 « 0) 10 £ u J£9 — o o 0

o 10 W —

bîo-4

-3| w — _c 10 £ _c -= 10 Ê

2M0-5 — Z Z10~5 z T3 ™~*

_ 10 \

T3

10 \ O —. o O — 0

"° -6 ■o "° -6 "O

10 10

— -5

10 — -5

10

10-7 — 10"7 —

— -6

10 — -6

10

m"8 1 i 1 i 1 111 I , I, I.I. — m"8 " 1 , 1,1,1, I 1 1 1 1111 —


AK (KsiVin) da/dN (10~6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 26.64 (min) 69.3 30. 106. 35. 169. 37.33 (max) 224.

RMS % Life Prediction Ratio Summary RMS % Life Prediction Ratio Summary Error a Error

1.46 i i>i i

0. .5 .8 1.25 2. 0. .5 .8 1.25 2.

Figure 8.20.3.1.14 8-1319

R 7475 (ALCLAD)


AK (MPaVin) 4 10 40 100

i I i I i|i|

(1 of 2)

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10-6in/cycle) 11.47 (min) 13. 16. 20. 25. 30. 35. 40. 40.45 (max)

10.2 13.1 20.4 34.2 62.8

114. 181. 309. 331.

RMS % Error

3.48

Yield Strength: 59.9 ksi Ult. Strength: 67.3 ksi Specimen Thk: 0.041 in. Specimen Width: 36 - 36.02 in. Ref: 86212


i 1 1 1 '

0. .5 .8 1.25 2.

1 AK (MPaVin)

4 10 40 100 rrjn

(2 of 2)

- I ' I 'I'l' - Stress Ratio: 0.25

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10-6in/cycle) 9.01 (min)

10. 13. 16. 20. 25. 30. 32.68 (max)

6.17 10.3 19.2 27.9 54.6

127. 208. 313.

RMS % Error

3.29


i 1 1———i 1

2. 0. .5 .8 1.25

Figure 8.20.3.1.15

8-1320

Condition/Ht: T761 Form: 0.04 in. Sheet Specimen Type: CCP (max load specified) Orientation: T—L Frequency: 2 Hz Environment: H.H.A.: RT

7475 (ALCLAD) R


AK (MPaVin) 4 10 40 100

(1 of 1)


10

10

o _ 6^10-+

> i M iin i i i i 11MI

10

10

10

10

-5

I I I I 111

— 10

10

I I 11 III

AK (MPaVin) 4 10 40 100

io"2£

10 E

10

10

T3

o

— 10

10

10

o 6-10-4

\ c _

2 10

10

10

10

zz I ' I ' I'l'l I ' I 'ITI -1

10

— 10

io"2 ° o

10"3E

^10 \ T3

— 10

— 10

4 10 40 100 AK (KsiVin)

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (10_6in/cycle) 49.02 (min) 50. 60. 70. 77.48 (max)

493. 603.

2504. 6068.

10397.

RMS % Error

5.07


RMS % Error

r- 0. .5 .8 1.25 2.


0. .5 .8 1.25

Figure 8.20.3.1.16 8-1321

R 7475 (ALCLAD)

Condition/Ht: T761 Form: 0.04 in. Sheet Specimen Type: CCP (max load specified) Orientation: T-L Frequency: 2 Hz Environment: 3.5% NACL; RT


AK (MPaVin) 4 10 40 100

(1 of 1)

10

10

Ü

o 10

■z. 10

x> _« — 10

10

10

-7

- I I I 'I'l'l I ' I M'l'l a

- Stress Ratio: 0.05 —

"^~ —

"""* —

"""" & —

"~~ —

—

" I , I,I,I, I , ! , [,[,

—

— 10

io"2 °

-3 I io E

■a

- 10 >

— 10

— 10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (I0"6in/cycle) 1479 (min) 16. 20. 25. 30. 32.79 (max)

53.7 60.5 90.2

127. 184. 229.

RMS % Error

1.62


i 1 1 ; 1

0. .5 .8 1.25 2.

10

-3 10

u o 10

10 ,-s

xi —

10

10

10

AK (MPaVin) 4 10 40 100

I I I I UM— I I 11 III TT

i i 11in ' i 1111

— 10

— 10

0) 2 TT

10 O \

10" 'I "—^ z

m" ̂ Ü

XI

-5 10

10

4 10 40 100 AK (KsiVin) ,


RMS % Error


0. —i 1 1—

.5 .8 1.25

Figure 8.20.3.1.17 8-1322

8009

CM O

Ü

■ u

OS o

SSss

p«'

cN

CO

NMMMHMNMHHMNHMHHMNMHMM

o

i I

Z o 5

o

Ed Ed X to

Q Ed

U Ed OH 2?

I 8-1323

R i 8009 I Condition/Ht: UNSPECIFIED Form: 0.09 in. Sheet Specimen Type: CT Orientation: L-T Frequency: 5 Hz Environment: LAB AIR; RT

Yield Strength: 60 ksi Ult. Strength: 62 ksi Specimen Thk: 0.089 in. Specimen Width: 1.5 in. Ref: UD011

AK (MPaVin) 4 10 40 100

(1 of 2)

10

-3 10

o frl o"4

c _

10

o

10

10

10

-7

= I ' I M'l'l I ' l 'I'l'l — Stress Ratio: 0.1

_L

— —

— —

: —

— Jp —

— a .^p —

— a - I , I,I,I, I , I,I,I,

—

AK (MPaVin) 4 10 40 100

(2 of 2)

— 10

io"2"

10"3E

- _*~a 10

10

o T3

— 10

4 10 40

AK (KsiVin) 100

AK (KsiVin) da/dN (10~6 in/cycle) 2.08 (min) 2.5 3. 3.5 4. 5. 6. 7. 8. 9.

10. 13. 16. 19.44 (max)

0.241 0.289 0.376 0.495 0.647 1.05 1.57 2.20 2.89 3.63 4.43 7.59

12.6 18.5

RMS % Error 29.83


i 1 1 1 1—

2. 0. .5 .8 1.25

10

10

Q) —

O

6^10-4

\ c _

10

-o _K - 10

10

10

- I ' I 'I'l'l I ' I M'l'l -1


— —

"■""

-=

— -=

— J& -=

— JF —

~ 1 , 1,1,1, 1 , LI,!, —

— 10

o \

10 E

— 10 o -o

-5 — 10

10

4 10 40 100

AK (KsiVin)


10. 10.90 (max)

0.261 0.321 0.445 0.600 0.786 1.25 1.85 2.58 3.47 4.62 6.05 7.44

RMS % Error

3.50


0. .5 .8 1.25

Figure 8.21.3.1.1 8-1324

Condition/Ht: UNSPECIFIED Form: 0.09 in. Sheet Specimen Type: CT Orientation: L-T Frequency: 5 Hz Environment: LAB AIR;400T

8009 R

Yield Strength: 39 ksi Ult. Strength: 42 ksi Specimen Thk: 0.089 in. Specimen Width: 1.5 - 1.502 in. Ref: UD011

AK (MPaVin) 4 10 40 100

(1 of 2)

10

10

_a> — o 5*10"+

\ c _

Z 10

"o _K I— 10

10

10

- I i I i|>|i| | i | '|T; _L

— Stress Ratio: 0.1 — __ —

-" *~* —

— E "~~ —

— -

— —

— _

— ^T" —

— m —

— ' ^^ —

— _

— —

- I , I,I,I, I , LI,I, =

— 10

_0J

io-2 u

o

-JlO \ T3

10

— 10


4 10 40 100

4 10 40 100

AK (KsiVin)

10

10

31 — o U"10-+

\ c _

Z 10 ■o tz

~o _K I— 10

10

10

= I ' I M'l'l I ' I 'I'l'l -1 — Stress Ratio: 0.5 —

— —

— -=

: / -=

: f -=:

:/ —

- i , i.Li, i , I,I,i, -=

— 10

io"2^ o

— 10

— 10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (I0"6in/cycle) 3.32 (min) 3.5 4. 5. 6. 7. 8. 9.

10. 13. 16. 20. 21.42 (max)

0.676 0.628 0.612 0.870 1.48 2.51 3.97 5.76 7.62

13.6 24.1 44.9 47.0

1.93 (min) 2. 2.5 3. 3.5 4. 5. 6. 7. 8. 8.06 (max)

0.111 0.132 0.431 1.11 2.41 4.52 9.83

13.8 23.0 35.7 36.1

RMS % Error

6.46


i 1 1 1 1—

0. .5 .8 1.25 2.

RMS % Error 10.86


0. .5 .8 TT25 2.

Figure 8.21.3.1.2 8-1325

R \ 8009 I Condition/Ht: UNSPECIFIED Form: 0.09 in. Sheet Specimen Type: CT Orientation: L—T Frequency: 5 Hz Environment: LAB AIR;600°F

1


10

-3 10

b-io-4

■z. 10 -a

10

-5

10

10

AK (MPaVin) 4 10 40 100

T 1 I I I MM

(1 Of 1)

I M I 'Ml

' I I I HI

10

— 10

o

—ho £

10

10

10

4 10 40 100

AK (KsiVin)


10. 10.01 (max)

0.246 0.260 0.410 0.502 0.614 0.823 2.09 6.23

13.9 20.6 26.1 37.6 37.8

RMS % Error 14.84


i 1 1 1

.5 .8 1.25 0. 2.


10

10 -3

O

bîo-+

c _

10 -5

■a —

"o _K — 10

10

10

AK (MPaVin) 4 10 40 100

i I i IHM 1—i I i MM—

hi i i i i 111 LL I 11II

— 10

10

_Q3

Ü

-3 I 10 E

10

10

o XI

-6 10

4 10 40 100

AK (KsiVin)


RMS % Error


0. —i 1 1—

.5 .8 1.25

Figure 8.21.3.1.3 8-1326

Condition/Ht: UNSPECIFIED Form: 0.09 in. Sheet Specimen Type: CT Orientation: L-T Frequency: 5 Hz Environment: LAB AIR;600°F

8009 R


AK (MPcVin) (1 of 1)

4 10 40 100

10

10

o 10 \ c _

-5 10

■D _„ - 10

10

10

_ | I | T|l| | I | <|l|>| _L


— —

— —

: S —

: / —

:/ —

~ i ,i,i,i, i , i.i.ii

—

10

io"2 u

o

io"JE

— 10

— 10

— 10

o

AK (MPaVin) 4 10 40 100

10

-3 10

_03 |—

o u 10

10

T3

4 10 40 100

AK (KsiVin)

10

10

10

= I ■ I Tl'l I ' I 'l'l'l 3

10

io"2^ o \

-3 | 10 E

- 10■ \ o

— 10

— 10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (I0"6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 1.99 (min) 2. 2.5 3. 3.5 4. 5. 5.75 (max)

0.105 0.112 0.269 0.493 2.01 6.40

18.7 38.5

RMS % Error 17.06


0. -1 1 1—

.5 .8 1.25


0. —i 1 1—

.5 .8 1.25

Figure 8.21.3.1.4

8-1327

8090

00

a

H

^

d ;

, 02 0D C

c eg £ ■ £ X

a s

o ••* ti ! ,o 5

"a •c J •e * •8 o 1

ODQ ■

o c .u V

tf S •** ü

C OS £

3* ;

CÜ

£ lO

H e» H5 cßO 1Q

c 0 £ •*

8

-W a « S -w CO © in H -*» A io a> CO

H

o •rt -w • pH

-Ö d 0 Ü

-w

Sa C .2

•Ö fe s o ° Ed

&

8-1328

8090

o I I

4 X X

M CO

0>

10 «

K

«9

m

N

CO

S 9

:* d

S2

i

• «

O

3

I 53 D

o

o

CO W X

12

8-1329

<4-i o

CO

a

m

u

■S

H i

iJ • •

o |

H i—i

ti O

«I V Äs

ill

s

■ II!

I4*WWM*M**V*V| till t**|WiH*W|**M*

i&

Sill W

s

8-1330

8090

O

It

1

X X 11 05 3

IS

Ü8S SS**

CO

N

co iSSi

i I

■

• •

O

3

o

2 O !

H

53

K X N

00

o 12

8-1331

8090 n o

CO

a 9

E

u

■a

-9

3

MMMMWUM

P£

m d

l

H • •

O

m m 5k

55 D 05

O US

12

a 8-1332

8090

| «5 'w

« CO « « « eo

£ 8 g s £ 8 8 g >

* £

* * £

*

1 S s s S s S s 5 OJ CO OJ OJ CO a>

3> OJ

rf

fe5

rfj Ö CM

;

. s Î1- t- CO CO CD

t- to

V

lo f. 0 ,_,

Vs o o o o o © ©

B1-» SzS« B K v ij

z tf 2 H E-< H H H H E- u o U Ü U U U

Q

§ Z

s S go ■Son «•* t-4 **« tN ^ lO

o a s £ 8 8 s 8 ft.

o o o © O o ©

1 to

£- •v N t>» OJ r- £* Si* a g & $ £ 8 a id 5 w « ^ ^ *- "-■ CO 04

9ßf o to c- t~ gii 00 Tf io to CD CD to cc to

8« fr< J J

fe° Jl eV £

|£?£ E-' H" fr! eg- « K K

§2 s 8 R 8 8 s R e Es

a o c « JS O

cu o s E E fe ■s ■fi

w X a

z a o s £ CN

0 S 8S CD

S3 u B

8-1333

R I 8090 I Condition/Ht: T651 Form: 1 in. Extrusion Specimen Type: CT Orientation: L-T Frequency: 25 Hz Environment: LAB AIR; RT

1 AK (MPcVin)

4 10 40 100 i MIHH—

(1 Of 2)

- I ' I 'I'l' — Stress Ratio: 0.1

4 10 40 100

AK (KsiVin)


10. 13. 16. 20. 25. 29.80 (max)

0.139 0.260 0.392 0.518 0.661 0.853 2.27 6.34

17.9 53.9 81.3

RMS % Error 11.80

Life Prediction Ratio Summary H O

I 1 1 1 I

.5 .8 1.25 0. 2.

Yield Strength: 54.6 ksi Ult. Strength: 68.4 ksi Specimen Thk: 0.291 in. Specimen Width: 1.991 - Ref: WL003

1.995 in

1 AK (MPaVin)

4 10 40 100

I ' I 'I'l'l

(2 of 2)

-IM 'i'i'i r — Stress Ratio: 0.33 — 10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10'6in/cycle) 3.81 (min) 4. 5. 6. 7. 8. 9.

10. 13. 16. 20. 22.15 (max)

0.124 0.142 0.268 0.458 0.715 1.03 1.40 1.86 5.29

18.2 34.8 52.5

RMS % Error 13.84


0. T-

.5 T-

.8 1.25

Figure 8.22.3.1.1 8-1334

8090 Condition/Ht: T651 Form: 1 in. Extrusion Specimen Type: CT Orientation: L—T Frequency: Environment: H.H.A.:83°F -85°F

R

Yield Strength: 57.9 ksi Ult. Strength: 70.5 ksi Specimen Thk: 0.233 - 0.235 in. Specimen Width: 2 in. Ref: WL003

AK (MPaVin) 4 10 40 100

(1 of 2)

10

10

Ü

O-10-4

c _

10

-o _K - 10

10

10

= I ' I M'l'l I ' I 'I'l'l — Stress Ratio: 0.1

_L

—

— = —

— — — —

— ~ —

— m =

~~ it? —

— M =

zz —

- I , I,I,I, I , M<l, -

— 10

10 £ o

10"3E

10

10

10

■o

o T3

AK (MPaVin) 4 10 40 100

(2 of 2)

10

10

o

^10"4

c I

4 10 40 100

AK (KsiVin)

■a 10

T3 10

10

10


— —

— —

— -=

— ff —

— ffl —

~ I , I, I,I, I , I.I,I, —

-1 — 10

10"* ^ ü

,o4 - -i.TI

10

— 10

o XI

-6 — 10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (I0"6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 5.12 (min) 6. 7. 8. 9.

10. 13. 16. 20. 22.42 (max)

0.132 0.251 0.672 1.68 3.39 5.24 7.99

10.1 17.5 28.0

4.03 (min) 5. 6. 7. 8. 9.

10. 13. 16. 16.11 (max)

0.117 0.436 1.29 2.69 4.15 5.56 7.27

14.9 20.5 21.0

RMS % Error

8.86

Life Prediction Ratio Summary o

r- 0. .5 .8 1.25

RMS % Error

9.41


i 1 1 1 1—

0. .5 .8 1.25

Figure 8.22.3.1.2 8-1335

R 8090 I

Condition/Ht: T651 Form: 1 in. Extrusion Specimen Type: CT Orientation: L-T Frequency: 10 Hz Environment: H.H.A.; RT

AK (MPaVin) 4 10 40 100

(1 of 1)

10

10

Ü

o 10 \ c [_

^lO"5

10

10

10 -8

- I ' I M'l'l I ' I M'l'l _L

— Stress Ratio: 0.1 — — - — — — — — - — — — — — - — — — — — - — — — — — r - — Jp — — M^ — — ^ - — — — —

- I , I,I,I, I , I,I,I, -

— 10

10

a;

- 10'\ o

— 10

— 10

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (1()-6in/cycle) 5.31 (min) 6. 7. 8. 9.

10. 13. 16. 20. 25. 27.08 (max)

0.231 0.320 0.512 0.803 1.22 1.80 4.69 9.54

19.3 45.3 67.0

RMS % Error

18.43


0. .5 .8 1.25

Yield Strength: 58 ksi Ult. Strength: 68.2 ksi Specimen Thk: 0.251 in. Specimen Width: 3.004 in. Ref: WL003

f=—l—i I i l Mi

10

10 -3

o

5^10-4

10 "O —

"O _fi — 10

10

10

AK (MPaVin) 4 10 40 100

I ' I 'I'l'l

' i i 11 n I ! Mi

— 10

10

o \

-*| — 10 E

-Jl0 >

10

— 10

4 10 40 100

AK (KsiVin)


RMS % Error


0. —i 1 1—

.5 .8 1.25

Figure 8.22.3.1.3 8-1336

Condition/Ht: T651 Form: 1 in. Extrusion Specimen Type: CT Orientation: L—T Frequency: 25 Hz Environment: H.H.A.; RT

8090

Yield Strength: 54.6 ksi Ult. Strength: 68.4 ksi Specimen Thk: 0.291 in. Specimen Width: 1.995 in. Ref: WL003

R

AK (MPaVin) 4 10 40 100

10

10

O O 10 \ c _

T3 10

10

10

10

= I ' I Tl'l I ' — Stress Ratio: 0.1

I M'l'l j.

—

— =

— —

— =

— —

— ~^

— —

— T

~ m —

— T —

~ —

~ I , I , l.l, I , I.I>l< =

(1 of 1)

10

io"2 u

Ü

,0-1

AK (MPaVin) 1 4 10 40 100

- ior\ o

10

10

4 10 40 100

AK (KsiVin)

10

10

u b"io-4

c _

10

T3 _e ~ 10

10

10

zTTTFl I ' I 'l'l'l 3

10

— 10

Q)

10" 2ö

o \

10" 'I '*-' z

m" ̂ o

Xi

— 10

— 10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (10-6in/cycle) 6.16 (min) 7. 8. 9.

10. 13. 16. 20. 25. 25.06 (max)

0.181 0.836 2.30 3.92 5.24 8.78

15.5 24.6 49.3 50.0

RMS % Error 14.36


0. .5 .8 1.25 2.


.5 .8 1.25 2.

Figure 8.22.3.1.4

8-1337

R I 8090 I Condition/Ht: T651 Form: 1 in. Extrusion Specimen Type: CT Orientation: T—L Frequency: 25 Hz Environment: LAB AIR; RT

1 AK (MPaVin)

4 10 40 100 > I i I 'Ml—

(1 of 2)


4 10 40 100 AK (KsiVin)


10. 13. 14.40 (max)

0.211 0.250 0.369 0.389 0.297 0.257 0.342 2.77

14.3

RMS % Error 11.65

Life Prediction Ratio Summary E3ÜX+

i 1 r 1 1

0. .5 .8 1.25 2.

Yield Strength: 64.1 ksi Ult. Strength: 75.6 ksi Specimen Thk: 0.291 - 0.292 in. Specimen Width: 1.992 - 1.995 in Ref: WL003

AK (MPaVin) 1 4 10 40 100

-1 1 I I I Mil

(2 of 2)

- i ' i TIM r — Stress Ratio: 0.33 — 10

— 10

—HO" u

o

-3 | 10 E

10

— 10

— 10

o

4 10 40 100 AK (KsiVin)


10. 11.30 (max)

0.163 0.187 0.266 0.486 0.796 1.20 1.72 2.69 5.12

17.0

RMS % Error 12.79


i 1 1 1 1—

2. 0. .8 1.25

Figure 8.22.3.1.5 8-1338

I n 09 n I I o 3 ' D

Condition/Ht: T651 Form: 1 in. Extrusion Yield Strength: 67.5 ksi Specimen Type: CT Ult. Strength: 76.6 ksi Orientation: T—L Specimen Thk: 0.237 - 0.238 in. Frequency: Specimen Width: 2 in. Environment: H.H.A.;82°F -85°F Ref: WL003

AK (MPaVin) ° of 2) AK (MPaVin) (2 of 2)

1 4 10 40 100 1 4 10 40 100 — I ' I ' I ' I ■ I I ' l ' I ' I'l -L — I ' 1 ' 1 'I'l 1 ' 1 ' 1' IM -1 _ I I I I 1 i i i i i 0 0 — Stress Ratio: 0.1 — 10 — Stress Ratio: 0.33 — 10

10"2 10"2

— -i 10 —

-1 10

ID"3 — <D IQ"3

<D _ •"^» -2T; •*~~v ~2 "71

<D — 10 « a; 10 £ u o u Ü

6^1 o-4 6-10-4 — — —

c — 10 E c 10 E *—s —

v-' ^-^ "*-*

zio"5 2 2 10"5 -z. **"" Mg

10 \ -a

10 \ o o a o "° -6 _ "O ~° -6 ■D

10 10

— -5

10 — $

— -5

10

10"7 — 10"7 -

— -6

10 — -6

10

in* ~ I , I,I,I, I , I,I,I, — m"8 ~ 1 , 1,1,1, I , I,LI, —

1 4 10 40 100 1 4 10 40 100


AK (KsiVin) da/dN (I0"6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 4.35 (min) 0.0824 3.66 (min) 0.119 5. 0.274 4. 0.212 6. 0.924 5. 0.857 7. 2.03 6. 2.08 8. 3.56 7. 3.48 9. 5.52 8. 5.48

10. 8.02 9. 9.29 13. 21.8 10. 15.7 16. 58.8 12.41 (max) 49.9 16.41 (max) 67.8

RMS % Life Prediction Ratio Summary RMS % Life Prediction Ratio Summary Error A □ Error o

20.72 i ■ iii i

0. .5 .8 1.25 2. 5.43 i , i i i

0. .5 .8 1.25 2.

Figure 8.22.3.1.6

8-1339

R I 8090 I Condition/Ht: T651 Form: 1 in. Extrusion Specimen Type: CT Orientation: T—L Frequency: 10 Hz Environment: H.H.A.; RT


AK (MPaVin) 1 4 10 40 100

I I i I MM—

(1 Of 1)

T-T-rjTjT


4 10 40 100 AK (KsiVin)


10. 13. 14.14 (max)

0.100 0.0988 0.115 0.180 0.549 1.44 2.74 4.01 5.29 6.90

19.2 31.2

RMS % Error 11.75


0. .5 .8 1.25

10

10

u 6-10-4

10

10

10

10

AK (MPaVin) 4 10 40 100

1 I M'l'l 1 ' I TIM

i i 111 n I I I I Ml

— 10

— 10

,o-I - _A."0

— 10 o

-5 — 10

— 10

4 10 40 100

AK (KsiVin)


RMS % Error


i 1 1 1—

0. .5 .8 1.25 —!-■

2.

Figure 8.22.3.1.7 8-1340

8090 Condition/Ht: T651 Form: 1 in. Extrusion Specimen Type: CT Orientation: T—L Frequency: 25 Hz Environment: H.H.A.; RT

R


AK (MPaVin) 4 10 40 100

(1 of 1)

10

10 jp _ o u 10 \ c _

2 10

■o . — 10

10

10


— —

— —

— —

— or —

— T —

III 1

1 , 1,1,1, —

10

10 « o \

-»I 10 Ê

-z.

10 >

10

— 10

4 10 40 100 AK (KsiVin)

AK (MPaVin) 1 4 10 40 100 •- I ' I ' I'l'l I ' I 'I'll

10

-3 10

o u 10 c _

•5 Z 10 XI

10

10

10 I I I 11II ' I I 11II LL

— 10

10

<0

o" 2Ö

o \

o" '1 v— z

1"° n \ u

XJ

10

10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (1CT6in/cycle) 4.59 (min) 0.163 5. 0.372 6. 1.76 7. 3.98 8. 5.03 9. 5.75

10. 8.06 11.91 (max) 15.0

RMS % Error 21.84


0. .5 .8 iS 2.

RMS % Error


0. —i 1 1—

.5 .8 1.25

Figure 8.22.3.1.8 8-1341

-—] 8090 1 " Condition/Ht: T8; 338F 24HRS Form: 1 in. Extrusion Yield Strength: 62.8 ksi

Specimen Type: CT Ult. Strength: 71.1 ksi Orientation: L-T Specimen Thk: 0.254 - 0.256 in.

Frequency: 8 — 10 Hz Specimen Width: 2.495 - 2.503 in.

Environment: H.H.A.; RT Ref: WL003

AK (MPaVin) (1 °f 2) AK (MPaVin) (2 °f 2)

1 4 10 40 100 1 4 10 40 100

0 10

= | i | i|i|i| | i | 'I'l'l -A


10 — Stress Ratio: 0.5 —

ID"2 io"2

-i 10

-1 10

ID"3 /^^ io'3 ^ 0)

0) io"2£

n/c

ycl

o 10

u \

10 E 10 E _c ^^ ^-' ^-^

Z10"5

XI \ o

-z. 10 >

XI

Z10'5

XI \ o

"O -6 X

10 6 10 -5

10 -5

10

10"7 10"7

-6 10

-6 10

-B " I , I ,l,l, I , I,I,I, irfB " 1 , 1,1,1, I , I,I,I, 1 U 1 ' I '— ' ■————— ' "


AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (I0"6in/cycle)

5.86 (min) 0.391 5.26 (min) 0.326 6 0.449 6. 0.554 7 0.952 7 1.10 8 1-57 8. 1-98 9. 2.22 9. 3.19

10. 2.85 10. 4.58 13. 4.55 13. 7.97 16. 6.22 16. 11.9 20. 9-35 20. 23.6 25. 17.0 25. 34.7 30. 30.9 26.95 (max) 44.4 35. 45.1 40. 49.3 41.66 (max) 47.5


Error □ Error □ 19.25

i 1 1 1 i

0. .5 .8 1.25 2. 11.88 0. .5 .8 1.25 2.

Figure 8.22.3.1.9 8-1342

8090 Condition/Ht: T8; 338F 24HRS Form: 1 in. Extrusion Specimen Type: CT Orientation: T—L Frequency: 8 — 10 Hz Environment: H.H.A.; RT

R

Yield Strength: 77.4 ksi Ult. Strength: 80.6 ksi Specimen Thk: 0.255 in. Specimen Width: 2.507 - 2.511 in Ref: WL003

AK (MPaVin) 4 10 40 100

10

10

o £i o'+

c _

Z 10

■o _. — 10

10

10


— —

: —

= —

— —

— —

- 1 , 1,1,1, 1 , 1,1,1, —

(1 of 2)

— 10

— 10

io"2£ o \

-3 | 10 E

10

10

— 10

"O

o ■o

4 10 40 100 AK (KsiVin)

AK (MPaVin) 4 10 40 100

(2 of 2)

10

-3 10

_0J |— o G-10-4

c _

10

"o _K — 10

10

10

- I i I 'I'M I ' I 'l'l'l -1


— —

— —

— —

- / —

: 1 —

~ i , I,!,I, i i ili

—

— 10

io"2 ° o

10"3E

T3

-5 — 10

— 10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (10"6in/cycie) 7.34 (min) 8. 9.

10. 13. 14.76 (max)

2.99 4.00 5.06 6.43

18.4 31.5

3.61 (min) 4. 5. 6. 7. 7.07 (max)

0.319 0.510 1.31 2.91 6.30 6.58

RMS % Error

5.32


0. -r- .8 1.25

RMS % Error

3.83


0. ~A 1.25 2.

Figure 8.22.3.1.10 8-1343

X709Ö

CM O

f „Jlpi

m i

% w

3 Ml <

«

sj CO

a 3

ls$l

a,

8-1344

X7090

CM O ■

I 09 CQ

Ö d bo o II

si

CO

W

3

;M*M>l>U*M*fcH*W4^

m 10 c>

10 d

0<

C5 Ml

01 to 63

8-1345

F X7090 I

Condition/Ht: T7E69 Form: 1 in. Plate Specimen Type: CT Orientation: S-T Stress Ratio: 0.5 Environment: NITROGEN GAS; RT

AK (MPaVin) 1 4- 10 40 100

-I II I I Mil

(1 of 2)

-2 10

10

o

10

10

10

10 -8

- i ' i M'l'i r — Frequency: 10. Hz

I , 111 w. i i i mi

— 10

— 10

10 ■2ö

o

10 E

10

10

10

T3

O

1 4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (lCT6in/cycle) 3.86 (min) 4. 5. 6. 7. 7.30 (max)

2.20 2.22 3.31 5.94

10.0 11.4

RMS % Error 11.42


i 1 1———i 1

.5 .8 1.25 2. 0.

Yield Strength: 60 - 70 ksi Ult. Strength: Specimen Thk: 0.508 - 0.509 in. Specimen Width: 1.028 - 1.03 in. Ref: MR001

AK (MPaVin) 4 10 40 100

10

-3 10

o o^10'4

\ c _

ZIG"5

10

10

10


— —

__ —

—

- / —

— -=

" I , I, I,I, I , I,I,I, —

(2 of 2)

10

o

,o-I

— 10 \ o

-5 — 10

10

4 10 40 100

AK (KsiVin)


1.57 1.55 3.30 5.40

11.8 12.4

RMS % Error

5.38


0. .5 .8 1.25

Figure 8.23.3.1.1 8-1346

X7090 Condition/Ht: T7E69 Form: 1 in. Plate Specimen Type: CT Orientation: S-T Stress Ratio: 0.5 Environment: 3.5S6 NACL; RT

F Yield Strength: 65 ksi Ult. Strength: Specimen Thk: 0.509 - 0.51 in. Specimen Width: 1.029 in. Ref: MR001


1 4 10 40 100

10

10

10

O

o 10

Z10 -o tz

10

10

10

-7

- | I | «I'l'l | ' | U'l'l -L — Frequency: 0.13 Hz —

— —

— —

mff

—

= ¥ —

— —

MI

i

i , i,i,i, —

— 10

io~2£

- io_J E

-Jio > T3

-5 -=i 10

— 10

4 10 40 100

AK (KsiVin)

— Frequency: 0.2 Hz

10

10

-2

(J _

bîo-4

-5 10

10

10

10

AK (MPaVin) 4 10 40 100

1 I 'I'l'l 1 ' I 'I'l'l ="

(2 of 2)

i i i i in i I i HI

— 10

— 10

Ü \

-3 I 10 E

10

10

10

TJ

O

4 10 40 100

AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 3.94 (min) 4. 5. 5.94 (max)

10.3 9.63

11.6 29.3

3.77 (min) 4. 5. 6. 6.31 (max)

5.62 7.18

14.6 23.6 27.0

RMS % Error 24.78


0. -1 r~

.5 .8 1.25 2.

RMS % Error 16.66


0. .5 .8 1.25

Figure 8.23.3.1.2 8-1347

X7091

o

<

O H

1

E

o d

e

I

^

41

N

$

co

g 10 d

i l u

■

• •

O

5

pc 3 o NH

SS lillll

BU

8-1348

X7091

CM O

8828S88 CO eö Ü, C be o

J3 09 09

l-H •

• CO

W

9

■t+Uii+U+M^

Si

N-l

s o

o re

w

CO

3

lip; 1Ü o

PI &i

Ed

IS EU

8-1349

R X7091 I

Condition/Ht: T7E70 Form: 1 in. Plate Specimen Type: CT Orientation: T—L Frequency: 20 Hz Environment: NITROGEN GAS; RT

AK (MPaVin) 1 4 10 40 100 =—|—i | i | i|i| 1—i I i I i|i|

(1 of 1)

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10'6in/cycle) 3.06 (min) 3.5 4. 5. 6. 7. 8. 9.

10. 13. 15.71 (max)

0.539 0.790 1.23 2.74 5.12 8.07

11.5 15.8 21.3 48.9 87.2

RMS % Error 18.36


0. .5 .8 1.25

Yield Strength: 60 ksi Ult. Strength: 73.2 ksi Specimen Thk: 0.51 - 0.513 in. Specimen Width: 1.032 - 1.033 in Ref: MR001

AK (MPaVin) 1 4 10 40 100 r=—|—i i > IHM

10 -2

10 -3

_Q) —

Ü _

oîo-4

_c _

-5 10

TJ —

-o _* — 10

10

10

I I I 11 M

I I I ' I I till

— 10

10

<D 2 TT

10 Ü

o \

10" ■1 ■z.

1"° m '\ u

x>

-5 10

10

4 10 40 100 AK (KsiVin)


RMS % Error


i 1 1 1 i

0. .5 .8 1.25 2.

Figure 8.24.3.1.1 8-1350

. 1 X7091 hr- K

Condition/Ht: T7E70 Form: 1 in. Plate Yield Strength: 70 ksi Specimen Type: CT Ult. Strength: Orientation: S-T Specimen Thk: 0.483 in. Frequency: 20 Hz Specimen Width: 1.021 in. Environment: NITROGEN GAS; RT Ref: MR001


— I ' I ' I MM I ' I ' I ' I'l -L — I ' l ' I'I'l I ' I ' I'I'l A 0 0

— Stress Ratio: 0.1 — 10 10

io-2 io-2

-1 10 _— -t

10

ID"3 CD io"3 -

<o _ -2 — -2 T;

a; 10 « a) — 10 « o — u u — ü

o 10 — \ o 10

— \ \ — -3P \ — -3P _c 10 £ _c — io Ê,

zio"5 — "Z. 2 10'5 Z

■o — 10 \

T3

10 \ o — o O o ■° -6 XI "° -6 TJ

10 10 -5

10 -5

10

io"7 io-7

— -6

10 — -6

10

m"8 " I , I , M, I , I,I,I, — m"6 ~ I , I,I,I, I , I,I,I, 1 4 10 40 100 1 4 10 40 100


AK (KsiVin) da/dN (I0"6in/cycle) AK (KsiVin) da/dN (I0"6in/cycle) 6.32 (min) 2.92 7. 4.31 8. 6.71 9. 9.54

10. 12.9 13. 28.5 16. 57.0 20. 109. 22.48 (max) 156.

RMS % Life Prediction Ratio Summary RMS 55 Life Prediction Ratio Summary Error a Error

3.11 i— i " i i i

0. .5 .8 1.25 2. i i i i i

0. .5 .8 1.25 2.

Figure 8.24.3.1.2 8-1351

R I X7091 I Condition/Ht: T7E70 Form: 1 in. Plate Specimen Type: CT Orientation: S-T Frequency: 0.2 Hz Environment: 3.5$ NACL; RT

Yield Strength: 70 ksi Ult. Strength: Specimen Thk: 0.485 in. Specimen Width: 1.04 in. Ref: MR001

AK (MPaVin) 4 10 40 100

(1 of 1)

10

10

O

^10"+

\ C L_

10 -5

10 .-6

10

10

-7

-Ml M'l'l I ' I Tl'l -L

— Stress Ratio: 0.1 ~^

— — — — — - — — — — — □ - — □ — □ —

— 9 —

— — — — — -

—

— - ~'

" I , ,1,1, i , i.i.i, —

10"2£

10 E

— 10

— 10

— 10

o

4 10 40 100 AK (KsiVin)


RMS % Error


0. .5 .8 1.25 2.

AK (MPaVin) 4 10 40 100

-2 10

10

bîo-4

_c _

ZIG"5

■o \ o

■O -A I— . 10

10"

10"

- I ' I'l'l'l 1 ' I 'l'l'l -1

10

10

a> 2 -r-

10 V

u \

10~ ■I z

m" ̂ u

■o

— 10

10

4 10 40 100 AK (KsiVin)


RMS % Error


0. —i , 1—

.5 .8 1.25

Figure 8.24.3.1.3 8-1352

X7091 Condition/Ht: T7E70 Form: 1 in. Plate Specimen Type: CT Orientation: S-T Stress Ratio: 0.5

EF Yield Strength: 60 - 70 ksi Ult. Strength: Specimen Thk: 0.511 - 0.515 in. Specimen Width: 1.032 - 1.034 in Ref: MR001

10

10

O

o^10-+

10

o ~° -6

10

10

10


4 10 40 100 T—I I l I 1111 I MM!

Environment: Nitrogen Gas; R.T^q 10 Frequency: 20. Hz

4 10 40 100 AK (KsiVin)


1 4 10 40 100

10

10

10

u ^10"4

c

10

"o - — 10

10

10

_ I I I Ijljlj I I I ll<lll _l

— Environment: 3.5SB NACL; R.T.; — _ Frequency: 0.2 Hz —

— —

— □ —

— u = [? □

S1

—

— -=

— -=

" 1 . M.I. 1 . 1,1.1: —

— 10

V 2 TT

0 o \

o" ■I N—' -z.

n" ̂ u

x>

— 10

— 10

4 10 40 100 AK (KsiVin)

AK (KsiVin) da/dN (10"6in/cycle) AK (KsiVin) da/dN (10"6in/cycle) 3.10 (min) 0.626 3.5 0.926 4. 1.44 5. 3.02 6. 5.31 7. 8.12 8. 11.3 9. 15.1

10. 19.9 13. 45.0 16. 104. 16.82 (max) 133.

RMS % Error 13.55

Life Prediction Ratio Summary IB A

RMS % Error

0. .5 .8 1.25


0. —i 1 1—

.5 .8 1.25

Figure 8.24.3.1.4 8-1353

TABUS 8.25

REFERENCES FOR THE 7000 SERIES ALUMINUM ALLOY DATA

57210 7075 K,

Unknown.

62306 7075 K,

Eichenberger, T. W., "Fracture Resistance Data Summary," Report DA-20947, The Boeing Company (June 1962).

62309 7075 K,

Batch, E. J., and Edwards, W. T., "Evaluation of Tear Resistance of 7079 Aluminum Alloys (Sheet Extrusions and Forgings)," Report SMN 86, Lockheed Aircraft Corporation, Marietta, Ga., (April 13, 1962).

62310 7075 K,

Anon., "Fracture Toughness Data Summary of 2000 and 7000 Series Aluminum Alloys," The Boeing Company, received from J. P. Butler (April 1965).

62311 7075 (ALCLAD) K,

Gurin, P. J., "Crack Propagation Tests for Some Aluminum Alloy Materials," LR 10498, Lockheed Aircraft Corporation (February 1955).

65697 7075 (ALCLAD) K,

Broek, D., "The Residual Strength of Aluminum Alloy Sheet Specimens Containing Fatigue Cracks of Saw Cuts," NLR-TR M.2143, National Aerospace Laboratory, Amsterdam (March 1966).

70485 7075 (ALCLAD) K,

Broek, D., "The Effect of Finite Specimen Width on the Residual Strength of Light Alloy Sheet," TR M.2152, National Aero- and Astronautical Research Institute, Amsterdam (September 1965).

75599 7075 K,

Hudson C M., "Effect of Stress Ratios on Fatigue-Crack Growth in 7075-T6 and 2024-T3 Aluminum-Alloy Specimens," NASA TN D-5390, Langley Research Center (August 1969).

8-1354

TABLE 8.25 (CONTINUED)


75787 7075 K,,«

Procter, R. P. M., and Paxton, H. W., "Stress Corrosion of Aluminum Alloy 7075-T651 in Organic Liquids," Journal of Materials, 4 (3) 729-760 (September 1969).

76411 7079 Kjc

Wessel, E. T., et al., "Engineering Methods for the Design and Selection of Materials Against Fracture," Final Technical Report, Westinghouse Research Laboratories, Pittsburgh, PA, Contract DA-30-069-AMC-602 (T) (June 24, 1966).

76442 7079 da/dt

Beck, T. R, Blackburn, M. J., and Spiedel, M. O., "Stress Corrosion Cracking of Titanium Alloys",Boeing Scientific Research Laboratories, Contract NAS 7-489, Seattle, Washington, 98124, March 1969.

77140 7075 Kjc

7178 IQ,

Kaufman, J. G., Schilling, P. E., and Nordmark, G. E., "Fracture Toughness, Fatigue and Corrosion Characteristics of X7080-T7E41 and 7178-T651 Plate and 7075-T6510, 7075-T73510, X7080-T7E42, and 7178-T6510 Extruded Shapes," Report AFML-TR-67-C-1521 (November 1969).

77720 7075 Kj,; a-vs-N; da/dN 7079 Kfc; a-vs-N; da/dN

Brownhill, D. J., et al., "Mechanical Properties, Including Fracture Toughness and Fatigue, Corrosion Characteristics and Fatigue-Crack Propagation Rates of Stress-Relieved Aluminum Alloy Hand Forgings," Report AFML-TR-70-10, Aluminum Company of America, Alcoa Research Laboratory, New Kensington, PA, Contract F33615-68-C-1385 (February 1970).

78313 7075 da/dt 7079 da/dt; Kj, 7175 da/dt; Kk

Hyatt, M. V., "Use of Precracked Specimens in Stress-Corrosion Testing of High-Strength Aluminum Alloys," Summary Report D6-24466, The Boeing Company, Renton, Wash., ARPA Contract N00014-66-C-0365 (November 1969).

8-1355

TABLE8.25 (CONTINUED)


79089 7075 K,

Fedderson, C. E., and Hyler, W. S., "Fracture-Crack Propagation Characteristics of 7075-T7351 Aluminum Alloy Sheet and Plate Report No. G-8902, Battelle Memorial Institute, Columbus Laboratories (March 1970).

80073 7007 K^

Schwartzberg, F. R, et al., "Cryogenic Alloy Screening," Report NASA CR-72733, Martin Marietta Corporation, Denver, CO, Contract NAS 3-11203 (November 1970).

82675 7075 Kjc; K^

Chu, H. P., and Wacker, G. A., "Fracture Toughness and Stress Corrosion Properties of Aluminum Alloy Hand Forgings," Journal of Materials, 7 (1) 95-99 (March 1972).

82879 7075 K* 7079 K* 7080 K*

Moore, R. L., et al., "Fatigue and Fracture Characteristics of Aluminum Alloy Cylinders Under Internal Pressure," Engineering Fracture Mechanics, 4 (1) 51-63 (March 1972).

82880 7075 K,c

7079 Kfc

Nelson, F. G., et al., "The Effect of Specimen Size on the Results of Plane-Strain Fracture-Toughness Tests," Engineering Fracture Mechanics, 4 (1) 33-50 (March 1972).

83058 7175 K^

Jones, R. E., "Fracture Toughness and Fatigue Crack Growth Properties of 7175-T736 Aluminum Alloy Forgings at Several Temperatures," Report AFML-TR-72-1, University of Dayton Research Institute, Dayton, OH, Contract F33615-71-C-1054 (February 1972).

83061 7049 K*; K^

Jones, R. E., "Mechanical Properties of 7049-T73 and 7049-T76 Aluminum Alloy Extrusions at Several Temperatures," Report AFML-TR-72-2, University of Dayton Research Institute, Dayton, OH, Contract F33615-71-C-1054 (February 1972).

8-1356



83242

84284

84286

84288

84306

84329

7049 7175

Kic; K[SC,

Harmsworth, C. L., "Evaluation of Landing Gears Fabricated from 7175-T736 Aluminum Alloys" Report No. LA 72-22, Air Force Materials Laboratory, Wright-Patterson AFB, OH, (May 25, 1972).

7039 da/dt 7049 da/dt 7075 da/dt 7079 da/dt 7175 da/dt

Hyatt, M. V., "Use of Precracked Specimens in Stress Corrosion Testing of High Strength Aluminum Alloys," Corrosion, 26 (11), 487-503 (November 1970).

7075 da/dt

Hyatt, M. V., "Use of Precracked Specimens in Selecting Heat Treatments for Stress-Corrosion Resistance in High Strength Aluminum Alloys," Corrosion, 27 (1), 49-53 (January 1971).

7075 7079

Nelson, F. G., and Kaufman, J. G., "Plane Strain Fracture Toughness of Aluminum Alloys at Room and Subzero Temperatures". ASTM STP 496, American Society for Testing and Materials, Philadelphia, PA, (1971).

7049 7075

Harrigan, M. J., "B-l Fracture Mechanics Data for Air Force Handbook Usage," Report TFD-72-501, North American Rockwell, Los Angeles Division, Los Angeles, CA, (April 21, 1972).

7079 Kfa.

Report of NRL Progress, Naval Research Laboratory, Washington, D. C, (October 1967).

8-1357



84330 7079 da/dt; K^

Report of NRL Progress, Naval Research Laboratory, Washington, D. C, (April 1968).

84331 7005 K&( 7075 Kh( 7079 Kfa

Report of NRL Progress, Naval Research Laboratory, Washington, D. C, (January 1968).

84340 7075 K,

Allen, F. C, "Effect of Thickness on the Fracture Toughness of 7075 Aluminum in the T6 and T73 Conditions," ASTM STP 486, "Damage Tolerance in Aircraft Structures," p 16-38 (1971).

84360 7075 Kjc; da/dN; K* 7175 da/dN; K*

.see

sec

McDonnell Aircraft Company, McDonnell Corp., St. Louis, Mo., Phase B Test Program, Report MDC A0913 (May 18, 1971).

84362 7050 K^« 7075 K*«

Dill, H. D., and Rich, D. L., "Evaluation of Aluminum Plate Alloys 7075-T7351, X7050-T73651 and 2021-T81," Report No. MDC A1755, McDonnell Aircraft Company, McDonnell Corporation, St. Louis, MO, (May 30, 1972).

84363 7050 K* 7075 Kfcj a-vs-N; da/dN

Rich, D. L., "MCAIRIRAD Data for Fracture Mechanics Engineering and Design Data Handbook," with enclosures (1) Materials Definition, (2) Mechanical Properties Test Data, (3) Plane Strain Fracture Toughness Test Data, and (4) Plane Strain Constant Amplitude Crack Growth Test Data, McDonnell Aircraft Company, McDonnell Douglas Corporation, St. Louis, MO (June 1972).

8-1358



84367 7075 K,

McEvily, A. J., Illg, W., and Hardrath, H. F., "Static Strength of Aluminum-Alloy Specimens Containing Fatigue Cracks," NACA TN 3816, Langley Aeronautical Laboratories (October 1956).

84368

85836

7049 K* 7175 Kfc 7475 K, 7475 (ALCLAD) K,

Babilon, C. F., et al., "Mechanical Properties, Fracture Toughness, Fatigue, Environmental Fatigue Crack Growth Rates, and Corrosion Characteristics of High-Toughness Aluminum Alloy Forgings, Sheet and Plate," Fifth Technical Management Report, Aluminum Company of America, Alcoa Research Laboratories, New Kensington, PA, Contract F33615-71-C-1571 (August 1972).

85291 7050 Kje

Deel, O. L., and Mindlin, H., "Engineering Data on New Aerospace Structural Materials," Report AFML-TR-72-196, Volume 1, Battelle, Columbus Laboratories, Columbus, OH, Contract F33615-71-C-1262 (September 1972).

85363 7475 a-vs-N; da/dN

Cervay, R. R., "Engineering Design Data for Aluminum Alloy 7475 in the T761 and T61 Condition," Report AFML-TR-72-173, University of Dayton Research Institute, Dayton, OH, Contract F33615-71-C-1054, (September 1972).

85543 7075 da/dt 7079 da/dt 7178 da/dt

Speidel, M. O., "Current Understanding of Stress Corrosion Crack Growth in Aluminum Alloys," from the Theory of Stress Corrosion Cracking in Aluminum Alloys, the Proceedings of a Research Evaluation Conference, J. C. Scully (Editor), Published by NATO Scientific Affairs Division, Brussels, Belgium (1971).

7049 K;, 7050 Ki, 7075 K,<

"B-l Fracture Toughness Data (Kj,.) - Rockwell International," Rockwell International Corporation, Los Angeles, CA, (April 24, 1973).

8-1359



7049 a-vs-N; da/dN 7050 a-vs-N; da/dN 7075 a-vs-N; da/dN 7175 a-vs-N; da/dN

85837

"Fracture Toughness Data Collection, Rockwell International Corporation, from B-l Program," Rockwell International Corporation, Los Angeles, CA., April 1973.

85880 7050 K^ 7175 Kfcj a-vs-N; da/dN

Garland, K, "Evaluation of X7050-T736 Die Forgings," Report 514-131.10, McDonnell Aircraft Company, McDonnell Douglas Corporation, St. Louis, MO, (February 20, 1973).

86088 7075 a-vs-N; da/dN 7178 a-vs-N; da/dN

Hudson, C. M., and Newman, J. C, Jr., "Effect of Specimen Thickness on Fatigue-Crack-Growth-Behavior and Fracture Toughness of 7075-T6, and 7178-T6 Aluminum Alloys," Report NASATN D-7173, Langley Research Center, Hampton, VA (April 1973).

86210 7075 K^c

"Rockwell International, B-l Fracture Toughness Data on Titanium and Aluminum Alloys of June 4, 1973," Rockwell International, Los Angeles, CA, (June 4,1973).

86212 7050 K^.; K^« 7075 Kfcj Kfc« 7475 a-vs-N; da/dN; da/dt 7475 (ALCLAD) a-vs-N; da/dN

McCarty, J. E., et al., "Materials Fracture Data From the Advanced Metallic Structures: Cargo Fuselage Design for Improved Cost, Weight and Integrity," The Boeing Company, Seattle, Washington, Contract F33615-72-C-1893 (June 15, 1973).

8-1360



86213 7001 KfciK, 7005 K^K, 7049 K* 7050 Kjc; a-vs-N; da/dN 7075 Kje; Kc; a-vs-N; da/dN 7075 (ALCLAD) Kfc; Kc; a-vs-N; da/dN 7079 KfcjK, 7079 (ALCLAD) K, 7080 K,c 7175 Kfc 7178 Kj,; K,; a-vs-N; da/dN 7178 (ALCLAD) K, 7475 Kjc; K,; a-vs-N; da/dN 7475 (ALCLAD) K,; a-vs-N; da/dN

Wygonik, R. H., "Compilation of Fracture Mechanics Data," Aluminum Company of America, Alcoa Research Laboratories, New Kensington, PA, Subcontract on F33615-73-C-5051 (June 12, 1973).

86429 7050 K^

"Fracture Toughness Data," Progress Report on Materials Test Program, General Dynamics Corporation, Fort Worth Division, Fort Worth, Texas, Contract F33615-72-C-2149 (Received July 6, 1973).

86493 7050 K^

Deel, O. L., Ruff, P. E., and Mindlin, H., "Engineering Data on New Aerospace Structural Materials," Report AFML-TR-73-114, Battelle-Columbus Laboratories, Columbus, OH, Contract F33615-72-C-1280 (June 1973).

86574 7050 K* 7475 Kjc

Figge, F. A., and Wells. R. R., "Advanced Metallic Structure: Air Superiority Fighter-Wing Design for Improved Cost, Weight and Integrity," Report No. AFFDL-TR-73-52, Volume III, Northrop Corporation, Aircraft Division, Hawthorne, CA, Contract F33615-72-C-1891 (June 1973), with no original data for da/dN tests.

86575 7075 a-vs-N; da/dN

"Rockwell International, B-l Program, da/dN Data, Center-Cracked Tension Specimens," Lockheed California Company, Burbank, CA, Report LR25152, (Received July 1973) (Memo from Ed Cawthorne dated July 10, 1973).

8-1361



86688 7075 K^ 7079 Kb«

Sprowls, D. 0., et al., "Evaluation of Stress Corrosion Cracking Susceptibility Using Fracture Mechanics Techniques," Final Report Part I, Aluminum Co., of America, Alcoa Technical Center, Alcoa, Pa., Contract NAS8-21487, May 31, 1973.

86734 7001 a-vs-N; da/dN 7005 a-vs-N; da/dN 7075 K, 7075 (ALCLAD) K, 7079 a-vs-N; da/dN

Smith, S. H., "Fracture Mechanics Application to Materials Evaluation and Selection for Aircraft Structure and Fracture Analysis," Report No. D6-17756, The Boeing Company, Commercial Airplane Division, Renten, Washington (July 19, 1966).

86842

Babilon, C. E., et al., "Mechanical Properties, Fracture Toughness, Fatigue, Environment Fatigue Crack Growth Rates and Corrosion Characteristics of High-Toughness Aluminum Alloy Forgings, Sheet and Plate," Report AFML-TR-73-83, Alcoa Research Laboratories, New Kensington, PA, Contract 71-C-15-71.

86844 7050 a-vs-N; da/dN

"Crack Growth Rate Data Generated Under Contract F33615-72-C-2165," Lockheed Aircraft Corporation, Lockheed-Georgia Company, Marietta, GA, Contract F33615-72-C-2165, Data Sheets received from AFFDL August 13, 1973.

88140 7075 K^; da/dN 7475 da/dN

Hall, L. R., Finger, R. W., and Spurr, W. F., "Corrosion Fatigue Crack Growth in Aircraft Structural Materials," Report AFML-TR-73-204, Boeing Aerospace Company, Seattle, WA. Contract AF33615-71-C-1687 (September 1973).

7049 a-vs-N; da/dN 7175 a-vs-N; da/dN 7475 K,; a-vs-N; da/dN 7475 (ALCLAD) K,

8-1362



88174 7050 K^; a-vs-N; da/dN

Jones, R. E., and Fudge, K. A., "Engineering Design Data for Aluminum Alloy 7050-T73651 Plate," Report AFML-TR-73-269, University of Dayton Research Institute, Dayton, OH, Contract F33615-72-C-1282 (November 1973)., with supplementary data supplied by Russell R. Cervay on March 20, 1974.

88186 7050 E*

"Selected Pages from Materials Section of Final Report on Cargo/Tanker Phase IA (AFFDL-TR-73-51) Lockheed Report SMN 378," Summary Report, Lockheed-Georgia Company, Marietta, GA, Contract F33615-72-C-2165 (February 8, 1974).

88579 7049 a-vs-N; da/dN 7050 a-vs-N; da/dN 7075 a-vs-N; da/dN 7175 a-vs-N; da/dN

"B-l Program da/dN Data for Aluminum Alloys," Rockwell International Corporation, memorandum to H. D. Moran from E. W. Cawthorne, Battelle's Columbus Laboratories (April 3, 1974).

90011 7075 Kfc

"Rockwell International, B-l Program Fracture Toughness Data of August 5, 1974," with memorandum from E. W. Cawthorne to H. D. Moran of Battelle's Columbus Laboratories (August 5, 1974).

91123 7050 Kjc

7075 Kfc

McCarty, J. E., et al., "Advanced Metallic Structure: Cargo Fuselage Design for Improved Cost, Weight, and Integrity," Report AFFDL-TR-73-53, Boeing Commercial Airplane Company, Seattle, WA Contract F33615-72-C-1893 (June 1973).

91332 7050 da/dN 7475 da/dN

Wells, R. R., "New Alloys for Advanced Metallic Fighter-Wing Structures," Northrop Corporation, Aircraft Division, Hawthorne, CA, AIAA/ASME/SAE 15th Structures, Structural Dynamics and Materials Conference, Las Vegas, NV (April 17-19, 1974).

8-1363



AL001 7050 Kfc; da/dN 7475 da/dN

Brownhill, D. G., et al., "Exploratory Development for Design Data on Structural Aluminum Alloys in Representative Environments," Alcoa Laboratories, Alcoa Center, PA Contract No. F33615-74-C-5089, Report No. AFML-TR-77-102, July 1977.

AL002 7075 a-vs-N; da/dN 7475 a-vs-N; da/dN

Data Sheets Containing Fatigue-Crack Growth Rate Data Near the Threshold on Aluminum Alloys 2020,2024, and 7475, sent from R. J. Bucci, Aluminum Company of America, ATC, February 1982.

AL003 7475 a-vs-N; da/dN

FCGR Data Sheets for Aluminum 7475-T651 Plate, Received from R. J. Bucci, Aluminum Company of America, Alcoa Laboratories, August 1982.


FCGR Data Sheets on Aluminum Alloy 7050-T6511 and T73511, Received from R. J. Bucci, Aluminum Company of America, Alcoa Laboratories, August 1982.


FCGR Data Sheets on Aluminum Alloy 7075- Conditions T651, T6510, T7351, T73510, Plates, Bars, and Extrusions; Received from R. J. Bucci, Aluminum Company of America, Alcoa Laboratories, August 1982.


FCGR Data Sheets on Aluminum Alloy 7050-T73511 Extrusions, Received from R. J. Bucci, Aluminum Company of America, Alcoa Laboratories, August 1982.


FCGR Data Sheets on Aluminum Alloy 7050-T7351X Extrusions, Received from R. J. Bucci, Aluminum Company of America, Alcoa Laboratories, August 1982.

8-1364




FCGR Data Sheets on Aluminum Alloy 7050-T7651X Extrusions, Received from R. J. Bucci, Aluminum Company of America, Alcoa Laboratories, August 1982.


FCGR Data Sheets on Aluminum Alloy 7475-T7351 Plate, Received from R J. Bucci, Aluminum Company of America, Alcoa Laboratories, August 1982.

AL012 7050 (ALCLAD) a-vs-N; da/dN

FCGR Data Sheets on Aluminum 7050-T76 (ALCLAD), Received from R J. Bucci, Aluminum Company of America, Alcoa Laboratories, August 1982.

AL013 7050 _ a-vs-N; da/dN

FCGR Data Sheets on Aluminum Alloy 7050-T73651 Plate, Received from R J. Bucci, Aluminum Company of America, Alcoa Laboratories, August 1982.


FCGR Data Sheets on Aluminum Alloy 7150-T651 Plate, Received from R J. Bucci, Company of America, Alcoa Laboratories, August 1982.

AL015 7050 Kfc; da/dN

FCGR Data Sheets on Aluminum Alloy 7050-T73651 Plate and 7050-T73652 Forging, Received from R. J. Bucci, Aluminum Company of America, Alcoa Laboratories, August 1982.

BL001 7010 Kfc; Kj.«

Deel, O., "Engineering Data for New Aerospace Materials," Battelle's Columbus Laboratories, Columbus, OH, Contract No. F33615-78-C-5040, Report No. AFWAL-TR-80-4103, July 1980.

8-1365



BL002 7075 a-vs-N; da/dN 7475 a-vs-N; da/dN

Ruff, P. E., and Smith, S. H., "Development of Mil-Hdbk-5 Design Allowable Properties and Fatigue Crack-Propagation Data for Several Aerospace Materials," Battelle's Columbus Laboratories, Columbus, OH, Contract No. F33615-75-C-5063, Report No. AFML-TR-77-162, October 1977.

BW001 7075 da/dN 7079 da/dN 7178 da/dN

Horsley, J. J., and Harris, C. E., "Durability and Damage Tolerance Assessment (DADTA) of B-52 G/H Structure, Task II, Damage Tolerance Assessment Final Report," Boeing Company, Wichita, KS, Contract No. F34601-79-C-1515, Document No. D3-11560-3, June 1980.

BW002 7075 da/dN 7178 da/dN

Lambert, G., Mecham, P., and Mah, T., "Durability and Damage Tolerance Assessment (DADTA) of B-52 G/H Structure, Task III, Individual Airplane Crack Growth Tracking Program," Boeing Company, Wichita, KS, Contract No. F34601-79-C-2258, Document No. D3-11560-6, November 1981.

DA001 7075 a-vs-N; da/dN 7475 a-vs-N; da/dN

Fatigue Crack Growth Rate Data Sheets on Aluminum Alloys 2024, 7010, 7050, 7075 and 7475, Stainless Steel Alloys 17-4PH and 17-7PH, and Alloy Steels 4340, A286, H-ll, HY-180 and 12-9-2, Sent from Mr. Paul Abelkis, Douglas Aircraft Company, McDonnell Douglas Corporation, Long Beach, CA, March 1982.

DA004 7050 K^; a-vs-N; da/dN 7475 Kic; a-vs-N; da/dN

Larson, B. F., "C-17 Material Specimen Tests for Fracture Mechanics Data Phase I, Lot 1 Aluminum Alloys Final Technical Report," Contract F33657-81-C-2108, Report MDC J9483-1, June 1987.

8-1366

TABLE8.25 (CONTINUED)


DA005

DA008

EFM01

GD001

GD002

GD005

7050 7475

Kjc; a-vs-N; da/dN Kjc; a-vs-N; da/dN

Kahandal, R. S., "C-17 Material Specimen Tests for Fracture Mechanics Data Phase I, Lot 2 Aluminum Alloys Final Technical Report," Douglas Aircraft Company, McDonnell Douglas Corporation, Contract F33657-81-C-2108, Report MDC J9483-2, April 22, 1988.

7150 a-vs-N; da/dN

Gutierrez, J. T., "C-17A Fracture Mechanics Data for 7150-T77 Plate and Extrusion Final Technical Report," Douglas Aircraft Company, McDonnell Douglas Corporation, Contract F33657-81-C-2108, Report MDC K0810, April 1989.

7075 (ALCLAD) a-vs-N; da/dN

Mackay, T. L., "Fatigue Crack Propagation and Rate at Low Delta K of Two Aluminum Sheet Alloys - 2024-T3 and 7075-T6," Engineering Fracture Mechanics, Volume II, pp 753-761, 1979.

7175 a-vs-N; da/dN

Kaarlela, W. T., and Nordquist, F. C, "Precision Aluminum Forgings Test Program for the F-16 Airplane," General Dynamics, Fort Worth Division, Report No. 16 PR78, April 1978.

7175 a-vs-N; da/dN

Kaarlela, W. T., and Nordquist, F. C, "Crack Growth Rate (da/dN) Characteristics of 7175-T7354 Bulkhead Forgings," General Dynamics, Fort Worth Division, Report No. 16 PR721, June 1977.

7475 K,

Margolis, W. S., and Nordquist, F. C, "Plane Stress Fracture Toughness (Ky of Aluminum Alloy 7475- One Half Inch Plate Tempers -T7651 and -T7351 and of Aluminum 2024 - One Eighth Inch Sheet -T81 and T62 Temper," General Dynamics, Fort Worth Division, TX, Report No. 16 PR889, February 1978.

8-1367



GD006 7475 Kjc; a-vs-N; da/dN; KlKC

Margolis W. S., "F-16 Material Test Allowables for Aluminum Alloy 7475, 3.0" Plate - T7351 Temper and 0.5" Plate (92" Width) - T7651 Temper and - T7351 Temper," General Dynamics, Fort Worth Division, Report No. 16PR926, April 1978.

GD008 7075 a-vs-N; da/dN

Margolis, W. S., "F-16 Material Test Allowables of Aluminum Alloy Forgings 7075-T73 and 7049-T73," General Dynamics, Fort Worth Division, Report No. 16 PR956, July 1978.

GD011 7475 K,

Margolis, W. S., "Plane Stress (K,) Fracture Toughness of Thin Elements from Thick Plate of 2124-T851 and 7475-T7351 Aluminum Alloys," General Dynamics, Fort Worth Division, Report No. 16 PR1287, October 1979.

LG001 7175 Kjc; K,; K^,«

Carter, F. J., et al., "C-5A Wing Modification Program - Material Characteristics Program - 7175-T73511 Extrusions Final Report," Lockheed-Georgia Company, Marietta, GA, Contract No. F33657-75-C-0178, Report No. LG75ER 0186-2, September 1977.

LG002 7050 (ALCLAD) K, 7475 (ALCLAD) K,

Fuselage Materials Tests - Kc Data on Aluminum 7050-T76 and 7475-T61 Materials - sent from E. J. Batch, Lockheed Georgia Company, Marietta, GA, October 1982.

LG003 7175 Kjc

Wygonik, R. H., "Evaluation of the R-curve for Fracture Toughness Quality Assurance Testing of Thin 7175 Aluminum Extrusions," Alcoa Laboratories, Alcoa Center, PA, for Lockheed-Georgia, Contract PO-RW18554, December 1981.

8-1368



MA002

MA005

MA006

MA007

MA008

MA009

7175 K^; a-vs-N; da/dN

Fracture Toughness of Ti-6A1-4V Plate and Forging, Aluminum 2124-T851 Plate and 7175-T37652 Forging and Fatigue Crack Growth Rate for Ti-6A1-4V Plate and Forging, Ti-6Al-6V-2Sn Extrusion, Aluminum 2124-T851 Plate and Aluminum 7175-T73652 Forging, Data Submitted by D. L. Rich of McDonnell Aircraft Co., St. Louis, MO, Attachment #2, Received March 12, 1982.

7050 7075 7175 7475

da/dN; K^ Kfc; da/dN; K,«, Kjc; da/dN; K^ K,e; da/dN; K,«,

Garland, K., and Krieg, J. F., "Final Report - Basic Fracture Data for F-18 Material," McDonnell Aircraft Company, St. Louis, MO, Report No. 3 NA-66-7KW, Attachment #5, March 1977.

7075 da/dN

Garland, K., and Krieg, J. F., "Evaluation of the Effect of Material Cyclic Softening and Hardening on Crack Initiation Life and Crack Growth, with and without Overloads as a Function of Stress Ratio," McDonnell Aircraft Company, St. Louis, MO, April 1978.

7049 7075

da/dN da/dN

Garland, K, and Krieg, J. F., "Environment-Load Interaction Effects on Crack Growth," McDonnell Aircraft Company, St. Louis, MO, Report No. 703-116, June 1978.

7075 da/dN

Garland, K, and Krieg, J. F., "Evaluation of Stress Level Effects Under Plane Stress and Plane Strain Conditions," McDonnell Aircraft Company, St. Louis, MO, Report No. TR 301-346, TM 256-5597, July 1979.

7075 da/dN

Garland, K, and Krieg, J. F., "Evaluation of Crack Growth Gages for Service Life Tracking Program," McDonnell Aircraft Company, St. Louis, MO, Report No. TR 703-325, TM 256-5298, December 1978.

8-1369



MA011

MA012

MPC01

MR001

NC001

7075 7079 7178

Kfcjda/dN da/dN da/dN

"Final Report, F/RF-4C/D Damage Tolerance and life Assessment Study - Vol. II," McDonnell Aircraft Company, St. Louis, MO, Contract No. AFSC F33657-73-A-0062, Report No. MDC A2883, February 1975.

7075 7178

K^; da/dN da/dN

Model F-4E Slatted Airplane Fatigue and Damage Tolerance Assessment, Vol. II," McDonnell Aircraft Company, St. Louis, MO, Contract No. F33657-73-A-0004-0015, Report No. MDC A3390, July 1975.

7075 K* 7075 (ALCLAD) Ki« 7079 Kfc 7175 Kfc 7178 Kfc 7475 ^

Collis, S. F., et al., "Fracture Toughness Data Bank for Aluminum Alloy Mill Products," Aluminum Company of America, Alcoa Laboratories, Alcoa Center, PA, Data Submitted by Alcoa, Reynolds Metals, Kaiser Aluminum , and Martin Marietta Aluminum and Prepared for Metal Properties council, Inc., August 1979.

7075 Kic; a-vs-N; da/dN X7090 a-vs-N; da/dN X7091 a-vs-N; da/dN

"Damage Tolerant Test Data on X7090, X7091, and 7075 Aluminum ," Materials Research Laboratory, Ins, Glenwood, IL, Under Contract to ARRADCOM, (DAAK10-79-C-0278), Received June 1982.

7050 7149 Kfc

Plane Strain Fracture Toughness Data Sets on Aluminum, Steel, and Titanium Alloys, Data sent from P. G. Porter of Northrop Corp., Hawthorne, CA, March 1, 1982.

8-1370



NC002

NC003

RA001

RA003

RA004

RA005

RA006

7050 a-vs-N; da/dN 7075 da/dN 7149 a-vs-N; da/dN

Fatigue Crack Growth Kate Data on Aluminum, Steel, and Titanium Alloy, Data sent from P. G. Porter of Northrop Corp., Hawthorne, CA, March 1, 1982.

7050 7075 K*; da/dN

Chanini, G. R, etal., "Methodology for Evaluation of Fatigue Crack-Growth Resistance of Aluminum Alloys Under Spectrum Loading," Northrop Corporation, Aircraft Division, Hawthorne, CA, Contract No. N00019-80-C-0427, April 1982.

7475 Kfc

Summary of Plane-Strain Fracture Toughness and Notch-Tensile Tests-Reynolds Metals Company, Metallurgical Research Division, Richmond, VA, Project 36-KFP-3M04, September 1978 - June 1980.

7475 K,c

Summary of Plane-Strain Fracture Toughness and Notch-Tensile Tests-Reynolds Metals Company, Metallurgical Research Division, Richmond, VA, Project 38KFN-7475 Alloy, March 1978 - November 1978.

7475 Kfc

Summary of Plane-Strain Fracture Toughness and Notch-Tensile Tests-Reynolds Metals Company, Metallurgical Research Division, Richmond, VA, Project 37-KFN-7475 Alloy, August 1977 - December 1977.

7475 K,c

Summary of Plane-Strain Fracture Toughness and Notch-Tensile Tests-Reynolds Metals Company, Metallurgical Research Division, Richmond, VA, Project 38-KFN-3M04-7475 Alloy, May 1980.

7475 K,e

Summary of Plane-Strain Fracture Toughness and Notch-Tensile Tests-Reynolds Metals Company, Metallurgical Research Division, Richmond, VA, Project 38-KFP-7475 Alloy, September 1977 - November 1977.

8-1371



RA007 7475 K^

Summary of Plane-Strain Fracture Toughness and Notch-Tensile Tests-Reynolds Metals Company, Metallurgical Research Division, Richmond, VA, Project 37-KFP-7475 Alloy, 1977.

RA008 7050 K^

Summary of Plane-Strain Fracture Toughness and Notch-Tensile Tests-Reynolds Metals Company, Metallurgical Research Division, Richmond, VA, Project 37-KFP-7050 Alloy-T73651, January 1978.

RA009 7050 K*

Summary of Plane-Strain Fracture Toughness and Notch-Tensile Tests-Reynolds Metals Company, Metallurgical Research Division, Richmond, VA, Project 37-KFN-7050 Alloy-T73651, 1977.

RA010 7050 Kfc

Summary of Plane-Strain Fracture Toughness and Notch-Tensile Tests-Reynolds Metals Company, Metallurgical Research Division, Richmond, VA,

Project 38-KFP-7050 Alloy-T73651, 1977.

RI002 7178 a-vs-N; da/dN

Data Sheets Containing Fatigue Crack Growth Rate Data on 7178-T651 Aluminum Plate Supplied by J. Stolpestad, Rockwell International, North American Aircraft Division, March 1982.

RI006 7049 Kfocc 7050 Kfacc 7075 K[»« 7175 Kfacc

Ferguson, R. R, and Berryman, R. C, "Fracture Mechanics Evaluation of B-l Materials," Rockwell International, B-l Division, Los Angeles, CA, Contract No. F33657-70-C-0800, Report No. AFML-TR-76-137, October 1976.

8-1372

•



RI008 7175 a-vs-N; da/dN 7475 a-vs-N; da/dN

"Crack Growth Test of 7175-T76511 Al Extr," Rockwell International, B-l Program, Los Angeles, CA, 90009.

SAO01 7075 a-vs-N; da/dN

Rungta, R., Deel, 0., and Frey, N., "Fatigue-Crack-Propagation Behavior of Materials of Several H-53 Helicopter Materials," Sikorsky Aircraft Company, Stratford, CT, Data Submitted by Battelle, Columbus, OH, 43201, Received October 20,1992.

SW001 7050 K*; a-vs-N; da/dN 7075 Kjc; a-vs-N; da/dN 7175 a-vs-N; da/dN

Data submitted by Mr. Jack Fitzgerald, Southwest Research Institute, San Antonio, TX.

UD002 7010 da/dN

Cervay, R. R, "An Empirical Model for Loading Ratio Effect on Fatigue Crack Growth Rate Data," University of Dayton Research Institute, Dayton, OH, Contract No. F33615-80-C-5011, Report No. AFWAL-TR-81-4140, November 1981.

UD003 7010 Kjc; da/dN; K^

Cervay, R. R, "Mechanical Property Evaluation on Aluminum Alloy 7010-T73651," University of Dayton Research Institute, Dayton, OH, Contract No. F33615-78-C-5002, Report No. AFWAL-TR-80-4094, July 1980.

UD006 7075 da/dN

Ruschau, J. J., "The Effect of Negative R-Ratio on Fatigue Crack Growth Rate Properties for Aluminum 7075-T73 and 2024-T3," University of Dayton Research Institute, Dayton, OH, Contract No. F33615-78-C-5002, Technical Memorandum UDR-TM-80-07, March 1980.

8-1373

TABLE 8.25 (CONCLUDED)

REFERENCES FOR THE 7000 SERIES ALUMINUM ALLOY DATA #

7049 Kjc; da/dN 7050 K^; da/dN 7075 IQ,; da/dN

WA001

Petrak, G. J., "Effect of Purity Level on the Mechanical Properties of 7000-Series Aluminum," Air Force Wright Aeronautical Laboratories (AFWAL/MSLA). Air Force Systems Command, WPAFB, OH, Project No. 2418, April 1980.

WL003 8090 Kie; a-vs-N; da/dN

Phillips, M. A, and Thompson, S. R., "The Mechanical Property Data Base From an Air Force/Industry Cooperative Test Program on Advanced Aluminum Alloys (8090 Extrusion)," Wright Patterson Materials Laboratory, WPAFB, Dayton, OH, 45433-6533, Report WRDC-TR-90-4113, November 1990.

WL005 7075 a-vs-N; da/dN

Data submitted by Mr. Jim Harter from ASTM round robin, Wright Patterson Materials Labs, April 1992.

8-1374