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UNIVERSITY DEPARTMENTS
ANNA UNIVERSITY CHENNAI :: CHENNAI 600 025
REGULATIONS 2008
III & IVCURRICULUMFROM
SEMEST ERS FOR
B.T ECH. RUBBER AND PLASTICS T ECHNOLOGY
SEMESTER
III
CODE NO COURSE TITLE L T P C
THEORY
MA 9211 Mathematics III 3 1 0 4
Physical & Organic Chemistry 3 0 0 3RP 9201
Thermodynamics and Thermal Engineering 3 1 0 4AU 9201
Engineering Fluid Mechanics 3 1 0 4AE 9201
Solid Mechanics 3 1 0 4AU 9202
Electronics & Instrumentation 3 0 0 3EI 9211
PRACTICAL
Computer Aided Parts & Assembly Drawing 0 0 3 2PR 9202
PR 9203 Mechanical Sciences Laboratory 0 0 3 2
TOTAL 26
SEMESTER
IV
CODE NO COURSE TITLE L T P C
THEORY
PR 9251 Theory of Machines 3 1 0 4
Numerical Methods 3 1 0 4MA 9261
Basics of Polymers 3 0 0 3RP 9251
Rubber Materials 3 0 0 3RP 9252
Fundamentals of Chemical Engg. Operations 3 0 0 3RP 9253
Polymer Physics 3 0 0 3RP 9254
PRACTICAL
Polymer Chemistry Lab 0 0 3 2RP 9261
Electrical and Electronics Engineering Lab 0 0 3 2EI 9261
TOTAL 24
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MA9211 MATHEMATICS
III L T P
C3 1 0 4
Aim:
To facilitate the understanding of the principles and to cultivate the art of
formulating physical problems in the language of mathematics.
Objectives:
To introduce Fourier series analysis which is central to many applications in
engineering apart f rom it s use in solving boundary value problems
To acquaint the student with Fourier transform techniques used in wide
variety of situations in which the functions used are not periodic
To introduce the effective mathematical tools for the solutions of partial
differential equations that model physical processes
To develop Z- transform techniques which will perform the same task for
discrete time systems as Laplace Transform, a valuable aid in analysis of
continuous time systems
1. FOURIER
SERIES
9+3
Dirichlets conditions General Fourier series Odd and even functions Half-range
Sine and Cosine series Complex form of Fourier series Parsevals identity
Harmonic Analysis.
2. FOURIER TRANSFORM
9+3
Fourier integral theorem Fourier transform pair-Sine and Cosine transforms
Properties Transform of elementary functions Convolution theorem Parsevals
identity.
3. PARTIAL DIFFERENTIAL EQUATIONS
9+3
Formation S olutions of first order equations Standard types and Equations
reducible to standard types Singular solutions Lagranges Linear equation
Integral surf ace passing through a given curve Solution of linear equations of
higher order with constant coefficients.
4. APPLI CATIONS OF PARTIAL DIFFERENTIAL EQUATIONS
9+3
Method of separation of Variables Solutions of one dimensional wave equation and
one-dimensional heat equation Steady state solution of two-dimensional heat
equation Fourier series solut ions in Cartesian coordinates.
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5. Z TRANSFORM AND DIFFERENCE EQUATIONS
9+3
Z-transform Elementary properties Inverse Z-transform Convolution theorem
Initial and Final value theorems Formation of difference equation Solution of
difference equation using Z-transform.
L: 45, T: 15, Total : 60TEXT
BOOKS
Grewal, B.S. Higher Engineering Mathematics, Khanna Publications (2007)
REFERENCE
S
1) Glyn James, Advanced Modern Engineering Mathematics, Pearson Education
(2007)
2) Ramana, B.V. Higher Engineering Mathematics Tata McGraw Hill (2007).
3) Bali, N.P. and Manish Goyal, A Text Book of Engineering
7
Edition (2007)t h
Lakshmi Publications (P) Limited, New Delhi.
RP9201 PHYSICAL & ORGANIC
CHEMISTRY 3 0 0 3
1. Chemical Kinetics And Catalysis
9
Chemical Kinetics Order Molecularity rate of reaction activation energy
Polymerization kinetics Catalysis Surf ace science Application of catalysis Phase rule - applicat ions.
2. Electro Chemistry / Corrosion
9
Electro Chemistry Electrochemical series Transport numbers and ionic mobility Buffer indicators - redox reaction potentiometric, conductometric, polarographic
studies Galvanic cells Electrolysis Thermodynamic parameters.
3. Structure and Reactivity in Organic Compounds:
9
Bonding in Organic Compounds- Structure-property relationships - Electronic effects
like inductive, mesomeric, electromeric and hyper conjugation effects free radicals,
carbo cations, carbanions, elementary ideas about stereo chemistry
4.Details of Reaction Mechanisms:
9
Free radical substitutions, Electophilic addition, Aromatic Elect rophilic substitutions,
Nucleophilic additions, condensation reactions, nucleophilic substitutions in aliphatic
and aromatic compounds, cyclo additions, rearrangements, uses of these reactions
in polymer preparation
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5.Organic substances of importance to polymer technology:
Amines, heterocyclic compounds furan, thiophene, pyrrole, pyridine, quinoline, iso
quinoline, imidazoles, thiazoles
Preparation , properties and uses of simple monomers like ethylene, propylene,
isobutylene, butadiene, styrene, methyl methacrylate , diisocyanates, glycols,
polyols, epichlorohydrin, fluoro alkenes, acrylonitrile, vinyl chloride, vinyl acetate
Total 45
REFERENCE
S
1. Glasstone, S., and Lewis, D., Elements of Physical Chemistry,
MacmillanIndia Press, Madras, 1995.2. Maron and Pruton C.F. , Physical Chemistry Macmillan, 1990.
3. Morrison and Boyd, Organic Chemistry Prentice Hall, N.Dli 1992
4. Finar I.L., Textbook of Organic Chemistry, ELBS,
1996.
AU9201 THERMODYNAMICS AND THERMAL
ENGINEERING 3 1 0 4
Objective
To introduce fundamental concepts in thermodynamics, heat tramsfer,
propulsion and refrigeration and air conditioning.
BASIC THERMODYNAMICS
16
Systems, Zeroth low, First law. Steady flow energy equation. Heat and work transfer
in flow and non-flow processes. Second law, Kelvin-Planck statement - Clausiusstatement - Concept of Entropy, Clausius inequality, Entropy change in non-flow
processes. Properties of gases and vapours.
AIR CYCLE AND COMPRESSORS
12
Otto, Diesel, Dual combustion and Brayton cycles. Air standard efficiency . Mean
effective pressure, Reciprocating compressors.
STEAM AND JET PROPULSI ON
12
Properties of steam Rankine cycle Steam Nozzles Simple jet propulsion system
Thrust rocket motor Specific impulse.
REFRIGERATION AND AIR-CONDITIONING
10
Principles of Psychrometry and refrigeration - Vapour compression - Vapourabsorption types - Co-efficient of performance, Properties of refrigerants B asic
Principle and types Air conditioning.
HEAT TRANSFER
10
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Conduction in parallel, radial and composite wall Basics of Convective heat transfer
- Fundamentals of Radiative heat transfer Flow through heat exchangers.
L = 45, T = 15, Total =
60
(Use of standard thermodynamic tables, Mollier diagram and Ref rigerant property
tables are permitted)
TEXTBOOKS1. Nag.P.K., Engineering Thermodynamics, Tata McGra w-Hill, New
Delhi,2007.
2. Rathakrishnan E., Fundamentals of Engineering Thermodynamics,
Prentice-Hall India, 2005.
REFERENCE
S 1. Ramalingam K.K. Thermodynamics, Sci-Tech Publications, 2006
2. Holman.J.P., Thermodynamics, 3rd Ed. McGraw-Hill,2007.3. Venwylen and Sontag, Classical Thermodynamics, Wiley Eastern, 1987
4. Arora C.P, Thermodynamics, Tata McGra w-Hill, New Delhi,
2003.5. Merala C, Pother, Craig W, Somerton, Thermodynamics for Engineers,
Schaum Outline Series, Tata McGraw-Hill, New Delhi,2004.
AE9201 ENGINEERING FLUID MECHANICS 3 1 0
4
Objectives:
BASIC
CONCEPTS
15
Introduction Fluid properties Newtons viscosity law Classification of fluids and
fluid motion Fluid statics Hydrostatic force on submerged surf aces stability of
floating bodies Dimensional analysis The Buckingham-Pi theorem Significantdimensionless groups Flow similarity and model studies
BASIC EQUATIONS OF FLUID FLOW
ANALYSIS
15
Basic laws for a system in integral form Conservation of mass Newtons 2 law n d
Laws of thermodynamics Application of the basic laws for a control volume
Kinematics Motion of a fluid particle Fluid deformation Differential analysis of
fluid motion Continuity equation Differential momentum equation The Navier
Stokes equations
INCOMPRESSIBLE INVI SCID FLOW
8
Eulers equations of motion Bernoullis equations Applications Methods of
pressure measurement Flow measurement Orifice plate Venturi meter
Irrotational flow Stream function and velocity potential Laplace equation
Elementary plane f lows
INCOMPRESSIBLE VISCOUS FLOW
8
Fully developed laminar flow bet ween infinite parallel plates Laminar and turbulent
flow through pipes Velocity profiles Energy considerations in pipe flow
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Calculation of head loss Pipe flow problems Hydraulic and energy grade lines
Moodys diagram
FLUID MACHINERY
14
Introduction and classification of fluid machines Turbo machinery analysis Theangular momentum principle Euler turbo machine equation Velocity triangles
Application to fluid systems W orking principle of turbines, fans, blowers, pumps andcompressors.
L = 45, T = 15, Total =
60
TEXT
BOOKS
1. Shames I H, Mechanics of Fluids, Kogakusha, Tokyo, 1998
2. Robert W Fox & Alan T Mc.Donald, Introduction to fluid Mechanics, John
Wiley and Sons, 1995
REFERENCE
BOOKS
1. Yuan S W, Foundations of fluid Mechanics, Prentice-Hall, 1987
2. Milne Thompson L M, Theoretical Hydrodynamics, MacMillan, 19853. Rathakrishnan, E, Fundamentals of Fluid Mechanics, Prentice-Hall, 2007
AU9202 SOLID MECHANICS 3 1 0
4
AXIAL LOADING
12
Stresses and strains Hookes law stress and strain diagrams - elastic constants
statically determinate and indeterminate problems in tension & compression
thermal stresses impact loading.
STRESSES IN BEAMS10
Shear force & bending moment diagrams bending stresses shear stress variation
in
beams of symmetric sections beams of uniform strength.
DEFLECTION OF BEAMS
12
Double integration method Macaulays method moment area method conjugate
beam method principle of superposition Strain Energy in axial, bending, torsion
and shear loadings. Castiglianos theorems and their applications.
TORSION SPRINGS COLUMNS
14
Torsion of solid and hollow circular shafts shear stress variation power
transmission in shafts open and closed-coiled helical springs st resses in helicalsprings classification of columns Euler buckling columns with different end
conditions.
BIAXIAL STRESSES
12
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Stresses in thin-walled pressure vessels combined bending, torsion and axial
loading of circular shafts Mohrs circle and its construction determination of
principal stresses.
Total 60
TEXT
BOOK
1. Gere & Timoshenko, Mechanics of Materials, McGraw Hill, 19932. William Nash, Strength of Materials, Tata McGraw Hill, 2004
REFERENCE
:
1. Dym,C.L., and Shames,I.H., Solid Mechanics, McGraw Hill,
Kogakusha,Tokyo, 1973.2. Stephen Timoshenko, Strength of Materials, Vol I & II, CBS Publishers and
Distributors, Third Edition.
3. R.K.Rajput, Strength of Materials, S. Chand and Co.,
1999.4. Timoshenko,S. and Young,D. H., Elements of Strength of Materials,
T.Van Nost rand Co. Inc., Princeton, N.J.,
1977.
EI9211 ELECTRONICS & INSTRUMENTATION 3 0
0 3
UNIT I ELECTRONIC COMPONENTS AND DEVICES
10
Resistors, Capacitors, Inductors and Transformers - properties, types. Simple
PN Junction Diodes, Zener diode, Bipolar Junction transistor and Field Effect
Transistors operating principles and characteristics. Other Devices UJT, SCR,
LED, Photodetectors.
UNIT II ANALOG CIRCUITS
10
Rectifier and Power Supply Circuits, clipper, clamper using diodes, OperationalAmplifiers (Ideal) properties and typical circuits like differentiator, integrator,
summer, comparator, single-stage BJTs and FETs amplifiers Multistage Amplifier
Principles(Qualitative Treatment only).
UNIT III DIGITAL CIRCUITS
10Basics of Boolean Logic Logic Gates, Flip-Flops, Shift-Registers, Counters,
Decoders/Drivers, Timer, Display Devices, A/D and D/A Converters.
UNIT IV MEASUREMENTS AND INSTRUMENTS
7Definitions of Accuracy, Precision, Sensitivity, Resolution, Linearity, Range,
Measurement of Electrical Quantities Voltmeter, Ammeter, Watt-Meter,
DMM,CRO, DSO, Transducers and signal conditioning syst ems for pressure,
temperature, acceleration measurements (Qualitative Treatment only).
UNIT V MICROPROCESSORS AND APPLICATIONS
8Architecture of 8085 processors, Address Modes, Instruction set, simple programming like addition, subtraction, multiplication, logical operation, Peripherals
and Interfacing 8255, 8251. Applications like motor control, keyboard and PC
interface, Introduction to Microcontrollers.
TOTAL
45
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T EXT BOOK1. Millman.J. and Halkias.C., Integrated Electronics, Tata McGraw Hill, 2004.
2. Paul Horowitz and Wilfred Hill The Art of Electronics, Cambridge University
press,1989.
REFERENCES
1. Donald P Leach, Albert Paul Malvino and Goutam Saha, Digital Principles &
Applications,6E, Tata McGraw Hill, 2006.
2. A.K.Sawhney, A course in Electrical and Electronic Measurement andInstrumentation, Dhanpat Raj. and Sons, New Delhi, 1999
3. Helfrick.A.D., and Cooper.W.D., Electronic Instrumentation and
Measurement techniques, Prentice Hall of India, 1998.
4. Gaonkar. Ramesh S, Microprocessor Architecture Programming and
Applications with 8085, 5th Ed. Penram International Publishing (India).
2003 .
5. Kenneth J.Ayala., The 8051 Microcontroller Architecture Programming and
Applications, 2ed, Penram International Publishing (India).2004.
PR9202 COMPUTER AIDED MACHINES & P ART
DRAWING
Objective: To train the st udents in construction of machine elements and
assembly Drawing
Train the students to allocate geometrical tolerances and to developpart drawing
1. Instruction to machine drawing & production drawing classification of drawing-
BIS conventions Orthogrphic and sectional views. Reviews of the concepts
of limits, tolerance, fits, surface roughness, and symbols terminology used in
Production drawing.
2. Machine element joints Types of joints Screw fasteners Pin joints,
couplings welded joints.
3. Computer Aided Production Drafting
Detailed part drawing and assembly drawings (with suitable tolerances,
machine sumbols, specification of fit).
1) Screw jack
2) Shaper tool head
3) Non return valve
4) Plummer block5) Foot step drawing
6) Machine vice
7) Four jaw chuck of lathe
8) Lathe tail stock
9) Square tool post
10) Universal coupling
11) Hydraulic & Pneumatic Assembly
TEXT
BOOK
:
1. Narayana K.L., Kannaiah P and Venkata Reddy Production Drawing Ne wage International Limited, Delhi 2004.
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REFERENCE
BOOKS:
1. Bhat N.D., Machine Drawing, Charotar Publishing House, Anand
2000
2. Nagtal G.R., Machine Drawing, Khanna Publishers, New
Delhi 1994.3. Sache Singh & P.L. Shah Fundamentals of Machine
Drawing,Prentice Hall India, 2003.
PR9203 MECHANICAL SCIENCES LAB 0 0 3
2
OBJECTIV
E
To train the students in testing and quantifying the mechanical properties of
Engineering Materials, Engines and Heat Exchangers
LIST OF
EXPERIMENTS
1. Tension Test
2. Torsion Test
3. Testing of springs
4. Impact test i) Izod, ii) Charpy
5. Hardness test i) Vickers, ii) Brinell, iii) Rockwell, iv) Shore
6. Deflection of Beams
7. Dye Penetrant Test
8. Performance test on a 4 storke engine
9. Viscosity determination of the given fluid
10. Moment of inertial of connecting rod
11. Determination of Effectiveness of a parallel and counter flow heat
exchangers
12. Valve timing of a 4 stroke engine and port timing of a 2 stroke engine
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PR9251 THEORY OF MACHINES 3 1 0
4
Objectives: To understand the basic concepts of mechanisms and machinery
1.MECHANISMS
14Definition Machine and Structure Kinematic link, pair and chain classification of
Kinematic pairs Constraint & motion Degrees of freedom - Slider crank single
and double Crank rocker mechanisms Inversions, applications Introduction to
Kinematic analysis and synthesis of simple mechanisms Determination of velocity
and acceleration of simple mechanisms.
2.FRICTION
12
Types of friction friction in screw and nut screw jack pivot, collar and thrust
bearings plate and cone clutch belt (flat & vee) and rope drives creep in belts
open and crossed belt drives Ratio of tensions Effect of centrifugal and initial
tensions condition f or maximum power transmission.
3.GEARING AND CAMS
12
Gear Types and profile nomenclature of spur & helical gears laws of gearing
interference requirement of minimum number of teeth in gears gear trains
simple, compound and reverted gear t rains determination of speed and torque in
epicyclic gear trains cams different types of followers Cam Types of cams and
followers Cam design for diff erent follower motions.
4.BALANCING
11
Static and dynamic balancing single and several masses in different planes primary and secondary balancing of reciprocating masses Balancing of single and
multi cylinder engines Governors and Gyroscopic effects.
5.VIBRATION
11
Free, forced and damped vibrations of single degree of freedom systems force
transmitted to supports vibration Isolation vibration absorption torsionalvibration of shafts single and multirotor syst ems geared shafts critical speed of
shafts.
Total 60
TEXT
BOOK
1. Bansal Dr.R.K. Theory of Machines Laxmi Publications (P) Ltd.,
New Delhi 2001
2. Rattan S.S. Theory of machines Tata McGraw Hill publishing Co.,
New Delhi, 2002.
REFERENCE
S
1. Rao J.S.and Dukkipati R.V. Mechanism and Machine Theory Second
Edition, Wiley Eastern Limited, 1992.
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2. Malhotra D.R. and Gupta H.C The Theory of machines Satya Prakasam,
Tech. India Publications, 1989
3. Gosh A and Mallick A.K. Theory of Machines and Mechanisms affiliated
east west press, 1989
4. Shigley J.E. and Uicker J.J. Theory of Machines and Mechanisms
McGraw Hill, 1986.5. Burton Paul Kinematics and Dynamics of Machinery, Prentice Hall,
1979.
MA9261 NUME RICAL
METHODS L T P
C3 1 0 4
Aim:
This course gives a complete procedure for solving numerically different kinds
of problems occurring in engineering and technology.
Objectives:The students would be acquainted with the basic concepts of
numerical methods and their applications.
1. SOLUTION OF EQUATIONS AND EIGENVALUE PROBLEMS
9 +3
Solution of algebraic and transcendental equations Fixed point iteration
method Newton-Raphson method Solution of linear system of equations
Gauss Elimination method Pivoting Gauss-Jordan methods Matrix
Inversion by Gauss-Jordan method Iterative methods of Gauss-Jacobi and
Gauss-Seidel Eigenvalues of a matrix by Power method and by Jacobis
method.
2. INTERPOLATION AND APPROXIMATION
9 + 3
Interpolation with unequal intervals Lagrange interpolation Newtons divided
difference interpolation Cubic Splines Interpolation with equal intervals
Newtons forward and backward difference f ormulae.
3. NUME RICAL DIFFERENTATION AND INTEGRATION
9 + 3
Approximation of derivatives using interpolation polynomials Numerical
integration using Trapezoidal, Simpsons 1/3 and Simpsons 3/8 rules
Rombergs method Two point and three point Gaussian quadrature formulae Evaluation of double integrals by Trapezoidal and Simpsons rules.
4. INITIAL VALUE PROBLEMS FOR ORDINARY DIFFERENTIAL
EQUATIONS 9+ 3
Single step-methods Taylors series method Eulers method Fourth order
Runge-Kutta method for solving first and second order equations Multi-stepmethods Milnes and Adams-Bashforth predictor-corrector methods for solving
first order equations.
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5. BOUNDARY VALUE PROBLEMS IN ORDINARY AND
PARTIALDIFFERENTIAL EQUATIONS
9 + 3
Finite difference methods for solving two-point linear boundary value problems.
Finite difference techniques for the solution of two dimensional Laplaces and
Poissons equations on rectangular domain One dimensional heat-flo wequation by explicit and implicit (Crank Nicholson) methods - One dimensional
wave equation by explicit method.
L: 45, T: 15, Total : 60
TEXT
BOOKS
1. Grewal, B.S. and Grewal,J.S., Numerical methods in Engineering and Science,6 Edition, Khanna Publishers, New Delhi, (2004).t h
2. Sankara Rao, K. Numerical methods for Scientists and Engineers, 3 Editionrd
Prentice Hall of India Private Ltd., New Delhi, (2007).
REFERENCE
S1. Chapra, S. C and Canale, R. P. Numerical Methods for Engineers,
5
Edition,t h
Tata McGraw-Hill, New Delhi, (2007).
2. Gerald, C. F. and Wheatley, P. O., Applied Numerical Analysis,
6
Edition,th
Pearson Education Asia, New Delhi, (2006).
3. Brian Bradie, A friendly introduction to Numerical analysis, Pearson Education
Asia, New Delhi, (2007).
RP9251 BASICS OF
POLYMERS 3 0 0 3
1. INTRODUCTION
6History of Macromolecules structure of natural products like cellulose, rubber,
proteins concepts of macro molecules Staudingers theory of macromolecules
difference between simple organic molecules and macromolecules.
2. ADDITION POLYMERIZATION
12
Chemistry of Olefins and Dienes double bonds Chemistry of free radicals
monomers functionality Polymerization: Initiation types of initiation free radical
polymerization cationic polymerization anionic polymerization coordination
polymerization industrial polymerization bulk, emulsion, suspension and solution
polymerization techniques Kinetics Copolymerization concepts.
3. CONDENSATION POLYMERIZATION
9
Simple condensation reactions Extension of condensation reactions to polymer
synthesis functional group reactivity polycondensation kinetics of polycondensation- Carothers equation Linear polymers by polycondensation
Interfacial polymerization crosslinked polymers by condensation gel point.
4. MOLECULAR WEIGHTS OF POLYMERS
9
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Difference in molecular weights between simple molecules and polymers number
average and weight average molecular weights Degree of polymerization and
molecular weight molecular weight distribution Polydispersity molecular weight
determination. Different methods Gel Permeation Chromatography Osmometry,
Light Scattering.
5. TRANSITIONS IN POLYMERS
8First and second order transitions Glass transition, Tg multiple transitions in
polymers experimental study significance of transition temperatures crystallinity
in polymers effect of crystallization in polymers factors affecting crystallization
crystal nucleation and growth relationship between Tg and Tm Relationship
between properties and crystalline structure.
TOTAL
45REFERENCE
S 1. Billmeyer.F.W.,Jr, Text Book of Polymer Science, Ed. Wiley-
Interscience,1984.
2. Seymour.R.B., and Carraher.C.E., Jr., Polymer Chemistry,
2
Ed., Marceln d
Dekker, 1988.
3. Gowariker.V.T., Viswanathan.N.V., and Sreedar.J. , Polymer Science,WileyEastern Ltd., 1988.4. Joel,R.F; Polymer Science and Technology, Eastern Economy Edition, 1999.
5. Rodriguez, F., Cohen.C., Oberic.K and Arches, L.A., Principles of
PolymerSystems, 5 edition, Taylor and Francis, 2003.t h
RP9252 RUBBER
MATERIALS 3 0 0 3
1. Structure-Property Relationships in
Rubbers:
8
Rubber Elasticity Requirements for rubber elasticity Effect of chemical structure
on the performance properties of rubbers Effect of structure on processingproperties of elastomers
2. Natural
Rubber:
. 6
Origin Natural Rubber Latex, tapping, processing, properties and applications Conversion of Latex into dry rubber Properties of dry rubber Classification based
on technical specifications Modifications of Natural RubberApplications
Synthetic polyisoprene.
3. Synthetic Elastomers: 16
Polybutadiene and SBR, Nitrile Rubber, Butyl Rubber and Polychloprene Rubbers
Ethylene Propylene Rubber and Ethylene Vinyl acetate copolymers Elastomers
based on modified polyethylene Acrylate rubbers Polysulphide rubbers- polyether
rubbers polyalkenamers
4 . High Performance El astomers : 7
Fluoroelastomers and silicone elastomers, Manufacture, structure, Properties and
applications
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5.Polyurethanes and thermoplastics Elastomers:
Reactions of di isocyanates polyols-chain extenders-types of urethane elastomers
properties and uses - Requirements for thermoplastic elastomeric behaviour SBS
and SIS Block copolymers Thermoplastic Polyurethane elastomers
Thermoplastic-co-polyesters Thermoplastic elastomers based on Plastics RubberBlends Dynamic Vulcanization.
TOTAL
45
REFERENCE
S
1. Brydson, J.A., Rubber Chemistry, Allied science Publishers, London, 1978.
2. Morton.M., Rubber Technology, Chapman Hall, 1995.
3. I. Franta, Elastomers and Rubber Compounding materials, Elsevier, 1989.
Blackely, D.C., Synthetic Rubbers their Chemistry and Technology.
RP9253 FUNDAMENTALS OF CHEMICAL ENGINEE RING
OPERATIONS 3 0 0 3
1. Classification of Unit Operations - Heat transfer steady state Fourier law
thermal conductivity conduction through plane wall cylindrical wall convection
forced and natural convection radiation unsteady state heat transfer methods of
solution- fuels and combustion stoichiometry 9
2. Heat exchange equipments double pipe and shell and tube heat exchangers,
condensers Mass Transfer Principles of dif fusion, Ficks law theory of diffusion,Mass transfer coefficients and film theory Penetration theory. Distillation Vapour
liquid equilibria, Simple distillation, Steam distillation, Continuous binary distillation,
Industrial equipments f or distillation- industrial boilers. 9
3. Agitation of liquids Types of impellers, Selection criteria, Power consumptioncalculations for agitated vesse Absorption Principle and equipment (packed towers
and plate columns). Adsorption Principles and equipment for absorption. 9
4. Drying Principles and def initions, Rate of batch drying, Equipments for drying.
Humidification Humidity and saturation, dry bulb and wet bulb temperatures,
percentage saturation, dew point, humid volume, humid heat, enthalpy, Equipment
Water technology cooling towers, spray chambers. 9
5. Membrane Separation Processes - S eparation of gases and liquids, Dialysis,
Membrance liquid liquid extraction, Pervaporation and reverse osmosis.
Size reduction Laws of crushing, Equipment Classification, Crushers and grinders.Mechanical separations Screening and screening equipments, Filtration Principle
and filtration equipment, filter media, filter aids, Gravity settlers, Cyclones and hydro
cyclones. 9
TOTAL
45
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REFERENCE
S 1. Mc. Cabe, W.L., Smith, J.C., Unit Operations of Chemical
Engineering,Mc.Graw Hill. 1993.
2. Badger, W.L., Banchero, J.T., Introduction to Chemical Engineering, Mc.Gra w
Hill, UK,
1997.3. Richardson and Coulson, Chemical Engineering, Vol. 1 & vol.2, Asian BooksPvt. Ltd., India. 1996.
4. Chattopadhyay, P., Unit Operations of Chemical Engineering Vol. I and Vol.II, Khanna Publishers, Delhi, 1998.
5. Foust A.S., Walzel.L.A., John Wiley - Principles of Unit
Operations.
RP9254 POLYMER PHYSICS 3 0 0
3
1. SOLUTION PROPERTIES OF POLYMERS8
Size and shape of the macromolecules Solubility parameter polymer/solvent
interaction parameter Theta temperature size and molecular weight of polymer
f rom the solution properties of polymers, Fractionation of Polymers.
2. FLOW BEHAVIOUR OF POLYMERS
4Importance of Rheology Newtonian and Non-newtonian flow behaviour Polymer
melt Rheology.
3. MECHANICAL PROPERTIES
13Stress strain properties of polymers comparison with conventional materials tensile properties flexural strength impact strength fatigue endurance
hardness tests mechanical relaxations in polymers temperature effect on themechanical behaviour of polymers visco-elastic properties of polymers Damping
characteristics crazing in glassy polymers Role of crazing in f racture
macroscopical fracture theory Fracture and microstructure.
4. FRICTION AND WEAR IN POLYMERS
8Elastic deformation single contacts multiple contacts Rolling f riction sliding
f riction of rubbers and rigid polymers lubrication by fluids wear wear testing
Abrasive wear.
5. ELECTRICAL PROPERTIES OF POLYMERS
7Introduction Polar and Nonpolar polymers - charge carriers carrier mobility
Dielectric properties of polymers - Anti static and conductive of polymers Volume
restivity measurements Molecular theories of dielectric relaxation in polymers
Dielectric breakdown.
6. OPTICAL PROPERTI ES OF POLYMERS
5Introduction Isotropic polymers Anisotropic polymers Dichroism Oprical
applications of polymers Transmission Rheoptical properties and application.
TOTAL
45
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REFERENCE
S 1. Ulrich Eisele, Introduction to Polymer Physics Springs Verlag, New York,
1990.
2. Bill Meyer.F.W. Text Book of Polymer Science, Wiley
IntersciencePublications, 1994.
3. Bikales.N.M., Mechanical properties of Polymers, John Wiley & Sons, 1971.4. Brown.R.P. , Physical Testing of Rubber Elsevier, 1986.
RP9261 POLYMER CHEMISTRY LAB 0 0 3
100
Lab
Requirements
Bunsen Burner 15Nos
Electronic Balance 1 No
Thermostatic Water bath 2 Nos
Melting Point Apparatus 1 No
Retort Stand
15NosPolymer Samples and Glass wares
Experiments:Identification of polymers by simple methods like density, melting
point,burning characteristics, sol ubility and confirmatory test by chemical analysis.
A.
PLASTICS1. Polyethylene
2. Polypropylene
3. Polystyrene
4. Polyvinyl Chloride
5. Polyamide
6. Polyethylene terephthalate
7. Polybutylene terephthalate8. Polycarbonate
9. Polyacetal10. Polyphenylene oxide
11. Polyphenylene sulphide
12. Phenol Formaldehyde
13. Urea formaldehyde
14. Melamine formaldehyde
B. IDENTIFICATION OF RUBBERS BY SIMPLE
METHODS1. Natural Rubber (NR)
2. Polybutylene Rubber (BR)
3. Styrene Butadiene Rubber (SBR)
4. Isoprene Rubber (IR)
5. Isobutiene Isoprene Rubber (IIR)
6. Chloroprene Rubber (CR)
7. Acrylonitrile Butadiene Rubber (NBR)
8. Silicone Rubber
TOTAL :
45REFERENC
E1. Identification of plastics and rubbers by simple methods , CIPET publications
2002
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EI9261 ELECTRICAL AND ELECTRONICS ENGINEERING LAB 0 0
4 2
1. Load test on separately excited DC shunt generator.
2. Load test on DC shunt motor
3. Load test on S Transformer
4. Load test on Induction motor
5. Regulation of 3 alternator
6. Study of CRO
7. Logic gates
8. Operation amplifiers
9. Time constant of RC circuit
10. Characteristics of LVDT
11. Calibration of Rotometer
12. RTD and thermistor
13. Flapper Nozzle system
Total 60
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