B.Tech Fashion Technology – R2009

2

KUMARAGURU COLLEGE OF TECHNOLOGY, COIMBATORE-6

(An Autonomous Institution Affiliated to Anna University, Coimbatore)

CURRICULUM 2009

B.Tech - TEXTILE TECHNOLOGY (FASHION TECHNOLOGY)

SEMESTER - I

Code No. Course Title L T P C

THEORY

ENG101 Technical English 2 1 0 3

MAT101 Engineering Mathematics – I 3 1 0 4

PHY101 Engineering Physics 3 0 0 3

CHY101 Engineering Chemistry 3 0 0 3

MEC101 Engineering Graphics 2 0 3 3

CSE101 Programming with ‘C’ 3 1 0 4

GHE101 Personal Values -I 1 0 0 1

PRACTICAL

CHY401 Chemistry Laboratory 0 0 3 1

MEC401 Engineering Practices Laboratory 0 0 3 1

CSE401 Programming Laboratory 0 0 3 1

TOTAL PERIODS – 32 TOTAL CREDIT – 24

SEMESTER - II


THEORY

ENG102 English For Pragmatic Usage 1 0 2 2

MAT103 Engineering Mathematics – II 3 1 0 4

PHY106 Applied Physics 3 0 0 3

CHY105 Chemistry for Textiles 3 0 0 3

MEC102 Engineering Mechanics 3 1 0 4

FTY101 Fibre Science 3 0 0 3

PRACTICAL

PHY401 Physics Laboratory 0 0 3 1

CSE451 Advanced Programming Laboratory 0 0 3 1

FTY401 Fibre Analytical Laboratory 0 0 3 1

GHE102 Personal Values -II 0 0 2 1

TOTAL PERIODS – 31 TOTAL CREDIT – 23

3

ENG101 TECHNICAL ENGLISH

(Common to all branches of Engineering and Technology)

OBJECTIVES

• To assist learners enhance their technical jargon and to impart knowledge about

the application of technical English.

• To familiarize learners with different rhetorical functions of technical syntax

• To inculcate written proficiency in commercial and business context

• To improve the competency of professional writing with special reference to

career related situations

• To provide pragmatic exposure to technical correspondence.

UNIT – I FOUNDATIONS OF TECHNICAL COMMUNICATION 5

Technical Jargon – Formation of engineering & technical vocabulary – Affixing –

Derivational jargon – Inflectional Morphemes – Nominal Compounds & technical

vocabulary – Acronyms and abbreviations, Concord – Agreement and Government of

scientific / technical syntax – Tense – Impersonal passive structure used in engineering

& technical texts, Modal verbs, Infinitives and Gerunds

UNIT - II TECHNICAL SYNTAX 5

Kinds of Technical Syntax – Causal expressions – Purpose and functional expressions,

Conditional syntax – Four types, Reported speech – Imperative structure – Instructions

in industrial situation, Discourse markers – Equipment / Process description, Analytical

writing – Writing a paragraph – Scientific text – Juxtaposed technical facts

UNIT – III CORRESPONDENCE IN CORPORATE SECTOR 9 Creating an advertisement, Transcoding – Graphics into text – Text into Charts / Tables

– Bar charts – Pie Charts – Flow charts, Editing – Contextual occurrence of common

errors – Syntactic & Semantic Errors – Preventive Parameters – General application of

articles and preposition – Punctuation – Spelling – Tags – Interrogative structures –

Proof reading

UNIT – IV TECHNICAL WRITING 5 Writing abstracts, Note making, Summarizing – Diction – Objective tone, Report writing

– Techniques of writing a report – Kinds of Reports – Industrial Report – Project

Proposals – Report on the status of a project – Report on the challenges of a project.

UNIT - V GENERAL CORRESPONDENCE 6

Modules of a letter – Official & Demi-Official Letters – Applying for Educational / Car /

Home Loans – Internet connection – Joining Report – Leave letter – email

correspondence – Industrial visit – Inplant Training – Letter to the Editor, Business

Letters – Calling for a quotation – Placing Order – Letter of Complaint – Letter seeking

Clarification – Acknowledging prompt / quality service

L: 30 T: 15 Total : 45Hrs

TEXT BOOK

1. Dhanavel.S.P, English and Communication Skills for students of Science &

Engineering, Chennai: Orient Blackswan, 2009 (ISBN 13: 9788125037392)

L T P C

2 1 0 3

4

REFERENCES

1. Rizvi Ashraf .M., Effective Technical Communication, Tata McGraw Hill

Publishing Co., Ltd., New Delhi, 2008.

2. Seely John., The Oxford Guide to Writing and speaking, Oxford University Press,

Chennai, 2006.

3. Devadoss K., Professional Communication for Engineers, Inder Publications,

Coimbatore, 2009.

4. Devadoss K, & Malathy P., Enhance your Employability, Inder Publications,

Coimbatore, 2009.

5

MAT101 ENGINEERING MATHEMATICS I

(Common to All Branches of Engineering & Technology)

OBJECTIVES On completion of the course the students are expected

• To know eigen values and eigen vectors and diagonalization of a matrix.

• To understand the concepts of three dimensional geometry including plane,

straight line and sphere.

• To know about the geometrical aspects of curvature, evolute and envelope.

• To understand the concepts of partial differentiation, maxima and minima.

• To solve ordinary differential equations of certain types.

UNIT – I MATRICES 9

Eigen values and eigenvectors of a real matrix – Properties of eigen values and

eigenvectors- Cayley - Hamilton theorem (excluding proof) – Orthogonal matrices –

Orthogonal transformation of a symmetric matrix to diagonal form – Reduction of

quadratic form to canonical form by orthogonal transformation.

UNIT – II THREE DIMENSIONAL ANALYTICAL GEOMETRY 9 Equations of a plane – Equations of a straight line – Coplanar lines – Shortest distance

between skew lines – Sphere – Plane section of a sphere – Orthogonal spheres.

UNIT – III GEOMETRICAL APPLICATIONS OF DIFFERENTIAL

CALCULUS 9 Curvature – Cartesian co-ordinates – Centre and radius of curvature – Circle of curvature

–Evolutes – Envelopes.

UNIT – IV FUNCTIONS OF SEVERAL VARIABLES 9

Total derivative – Taylor’s series expansion – Maxima and minima for functions of two

variables – Constrained maxima and minima – Lagrange’s multiplier method –

Jacobians.

UNIT – V ORDINARY DIFFERENTIAL EQUATIONS 9 Linear equations of second order with constant coefficients – Euler’s and Legendre’s

linear equations - Method of variation of parameters – Simultaneous first order linear

equations with constant coefficients.

L: 45 ,T: 15 Total : 60Hrs

TEXT BOOK

1. Veerarajan T., Engineering Mathematics (for First Year) , Revised Edition, Tata

McGraw Hill Pub. Co. Ltd., New Delhi, 2007.

REFERENCES

1. Kreyzig E., “Advanced Engineering Mathematics”, John Wiley & Sons (Asia) Pvt,

Ltd., Singapore, 8th

Edition, 2001.

2. Grewal B.S., “Higher Engineering Mathematics”, Khanna Publishers, Delhi, 36th

Edition, 2001.

L T P C

3 1 0 4

6

3. Venkataraman M.K., “Engineering Mathematics”, Volume - II, The National Pub.

Co., Chennai, 2003.

4. Kandasamy P., Thilagavathy K., and Gunavathy K., “Engineering Mathematics”,

S. Chand & Co., New Delhi, (Re print) 2008.

5. Arunachalam T., “Engineering Mathematics I”, Sri Vignesh Publications,

Coimbatore. (Revised) 2009.

7

PHY101 ENGINEERING PHYSICS


OBJECTIVES

At the end of the course the students would be exposed to

• To impart fundamental knowledge in various engineering subjects and

applications

• Design of acoustically good buildings

• Structure identification of engineering materials

• Non destructive techniques

• Interferometric techniques in metrology, communication and civil engineering

• Application of quantum physics to optical & electrical phenomena

• Application of lasers in engineering and technology.

UNIT – I ACOUSTICS AND ULTRASONICS 9

Classification of sound characteristics of musical sound, Loudness Weber Fechner law

Decibel, Phon,-Reverberation Reverberation time, Derivation of Sabine s formula for

reverberation time (Rate of Growth and Rate of Decay) Absorption coefficient and its

determination - Factors affecting acoustics of buildings (Optimum reverberation time,

Loudness, Focussing, Echo, Echelon effect, Resonance and Noise) and their remedies.

Ultrasonic production Magnetostriction & piezoelectric methods - Detection Thermal

and Piezoelectric methods, properties, Determination of velocity of ultrasonic waves in

liquid using acoustic grating - Applications SONAR, Measurement of velocity of blood

flow & movement of heart.

UNIT – II CRYSTALLOGRAPHY & NON-DESTRUCTIVE TESTING 9 Space lattice, unit cell, Bravais space lattices, Lattice planes, Miller indices Calculation

of inter planar Distance, number of atoms per unit cell, Atomic radius, coordination

number & packing factor for simple cubic, BCC, FCC and HCP structures NDT

methods: Liquid penetrant method, Ultrasonic flaw detector, X-ray radiography &

fluoroscopy. Thermography

UNIT – III WAVE OPTICS 9 Air wedge (theory and experiment) - testing of flat surfaces - Michelson interferometer,

Types of fringes, Determination of wavelength of monochromatic source and thickness

of a thin transparent sheet - Theory of plane, circularly and elliptically polarized light -

quarter and half wave plates, production and analysis of plane, circularly and elliptically

polarized light - Photo elasticity Birefringence - effect of a stressed model in a plane

polariscope Isoclinic and isochromatic fringes Photo elastic bench

UNIT – IV QUANTUM PHYSICS 9 Planck s quantum theory of black body radiation (Derivations), Photo electric effect -

Compton effect (derivation) and Experimental verification of Compton effect Schr

dinger wave equation Time independent and time dependent equations (derivation),

Physical significance of wave function, particle in a box (in one dimension) electrons in

a metal.

L T P C

3 0 0 3

8

UNIT – V LASER & FIBRE OPTICS 9 Einstein s coefficients (A & B), Nd-YAG laser, He-Ne laser, CO2 laser, semiconductor

laser - Homo-junction and Hetero-junction (only qualitative description) - Applications

Material processing, CD-ROM & Holography (Qualitative) Optical fibre- Principle and

Propagation of light in optical fibres-Numerical aperture and acceptance angle-types of

optical fibres Single and Multimode, step index & graded index fibres Applications -

Fibre optics communication system, Fibre optic sensors(Displacement and temperature

sensors), Medical endoscope.

L: 45, T : 15 Total :60Hrs

TEXT BOOK

1. Avadhanalu.M.N., & Kshirsagar.P.G,, A textbook of Engineering Physics, S.Chand

& Company Ltd, New Delhi, 2005.

2. Gaur R.K., & Gupta S.L., Engineering Physics, 8th

edition, Dhanpat Rai Publications

(P) Ltd., New Delhi, 2003.

REFERENCES

1. Rajendran V., & Marikani A., Applied Physics for Engineers, 3rd Edition, Tata

McGraw Hill Publishing Company Limited, New Delhi, 2003.

2. Gopal.S., Engineering Physics, Inder Publications, Coimbatore, 2006.

3. Arumugam M., Engineering Physics, 5th

Edition, Anuradha Agencies, Kumbakonam,

2003.

4. Palanisamy P.K., Physics for Engineers, Vol.1 & Vol.2, 2nd Edition, Scitech

publications, Chennai, 2003.

9

CHY101 ENGINEERING CHEMISTRY


OBJECTIVES • To develop a sound knowledge of theoretical and modern technological aspects

of applied chemistry.

• To correlate the theoretical principles with application oriented studies.

UNIT – I ELECTROCHEMISTRY 9 Single electrode potential - standard electrodes (Hydrogen & calomel electrodes) -

electrochemical series - Nernst equation and problems. Types of electrodes (Metal-metal

ion electrode, metal -metal insoluble salt electrode, glass electrode) - determination of

pH using glass electrode - application of emf measurements and problems - reversible

and irreversible cell - Galvanic cell - Concentration cells - Kohlrausch law of

independent migration of ions and its application - Conductometric titration -

Polarization - Overvoltage - Decomposition potential.

UNIT – II ENERGY STORING DEVICES 9 Introduction - primary and secondary batteries (dry cells - alkaline batteries, lead acid

storage cell, nickel - cadmium cell, lithium battery) - fuel cell (hydrogen and oxygen fuel

cell) - photogalvanic cell.

Nuclear Energy Sources Nuclear fission process - characteristics of nuclear fission - chain reactions - nuclear

energy - nuclear reactors (light water nuclear power plant).

UNIT – III THERMODYNAMICS 9 Thermodynamics - thermodynamic processes (isothermal, isobaric, isochoric and

adiabatic processes) - internal energy mathematical form of first law – enthalpy -

limitation of first law - statement of second law of thermodynamics (Clausius and

Kelvin) - definition of entropy - entropy change for a reversible process - entropy

change for an isothermal expansion of an ideal gas and problems - definition of free

energy and work function - Gibbs Helmholtz equation - applications and problems –

Van’t Hoff isotherm and isochore - applications and problems.

UNIT – IV SURFACE CHEMISTRY 9 Adsorption: Types of adsorption - adsorption of gases on solids - adsorption isotherm

(Freundlich, Langmuir isotherms) - adsorption of solutes from solutions - applications

role of adsorption in catalytic reactions - ion exchange adsorption - basic principles in

adsorption chromatography.

UNIT – V SPECTROSCOPY 9

Beer Lambert’s Law - colorimetric analysis - principles, instrumentation (block diagram

only) - estimation of concentration of a solution by colorimetry - flame photometry -

theory, instrumentation (block diagram only) and application – UV – Visible & IR

spectroscopy - principles, instrumentation (block diagram only) and simple applications.

Total : 45hrs

TEXT BOOK

1. Jain P.C. and Monika Jain, Engineering Chemistry, Dhanpat Rai Pub. Co. (P) Ltd.,

New Delhi, 14th

edition, 2002.

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3 0 0 3

10

2. Kuriacose J.C. and Rajaram J., Chemistry in Engineering and Technology, Vol. 1& 2

, Tata McGraw-Hill Publishing Co. Ltd.., New Delhi, 2005.

REFERENCES

1. Bahl B.S., Tuli G.D., and Arun Bahl, Essentials of Physical Chemistry, S.Chand &

Co. Ltd., New Delhi, 2004.

2. Somorjai G A, Introduction to Surface Chemistry and Catalysis, John Wiley and

Sons. Inc. New York, 1994.

3. Shaw D.J., Introduction to Colloid and Surface Chemistry, Butterworth-heinemann

publishers, 1992.

4. Syed Shabudeen P.S., and Shoba U.S., Applied Engineering Chemistry, Inder

publications, Coimbatore 2009.

11

MEC101 ENGINEERING GRAPHICS


OBJECTIVES • To understand the principle of orthographic projection of points, lines, surfaces

and solids.

• To understand the principle of section and development of solids.

• To understand the principle of Isometric and Perspective projections.

• To study the principle of free-hand sketching techniques.

UNIT- I PLANE CURVES, PROJECTION OF POINTS AND LINES 15 Importance of graphics in design process, visualization, communication, documentation

and drafting tools, Construction of curves - ellipse, parabola, and hyperbola by

eccentricity method only. Orthographic projection of points.

Projections of straight lines located in first quadrant - determination of true length and

true inclinations.

UNIT -II PROJECTIONS OF SURFACES AND SOLIDS 15 Projections of plane surfaces - polygonal lamina and circular lamina, located in first

quadrant and inclined to one reference plane., Projection of simple solids - prism,

pyramid, cylinder and cone. Drawing views when the axis of the solid is inclined to one

reference plane.

UNIT- III SECTION OF SOLIDS AND DEVELOPMENT OF SURFACES 15 Sectioning of simple solids - prisms, pyramids, cylinder and cone. Obtaining sectional

views and true shape when the axis of the solid is vertical and cutting plane inclined to

one reference plane.

Development of lateral surfaces of truncated prisms, pyramids, cylinders and cones.

UNIT -IV PICTORIAL PROJECTIONS 15

Isometric projection, Isometric scale, Isometric views of simple solids, truncated prisms,

pyramids, cylinders and cones.

Perspective projection of prisms and pyramids when its base resting on the ground by

vanishing point method.

UNIT -V FREE-HAND SKETCHING 15

Free hand sketching techniques sketching of orthographic views from given pictorial

views of objects, including free-hand dimensioning.

Sketching pictorial views from given orthographic views.

L: 30, P: 45 Total : 75Hrs

TEXT BOOK

1. Basant Agrawal and CM Agrawal, Engineering Drawing, McGraw-Hill, New Delhi,

First Edition, 2008

2. Venugopal K., and Prabhu Raja V., Engineering Graphics, New Age International

(P) Limited, New Delhi , 2008.

L T P C

2 0 3 3

12

REFERENCES

1. Nataraajan K.V, Engineering Drawing and Graphics, Dhanalakshmi Publisher,

Chennai, 2005.

2. Warren J. Luzadder and Jon. M.Duff, Fundamentals of Engineering Drawing,

Prentice Hall of India Pvt. Ltd., New Delhi, Eleventh Edition, 2005.

3. Gopalakirishna K.R., Engineering Drawing (Vol. I & II), Subhas Publications, 2001.

13

CSE101 PROGRAMMING WITH ‘C’

OBJECTIVES

• To learn the basic concepts of computing.

• To know the methodology of problem solving.

• To develop skills in programming using C language.

UNIT-I BASICS OF COMPUTERS AND PROGRAMMING LANGUAGES 9 Components of a computer system – Hardware – Software - Problem solving techniques-

Program control structures – Programming paradigms – Programming languages-

Generations of programming languages -Language translators - Features of programming

languages.

UNIT II C FUNDAMENTALS 9 Introduction to C –Overview of compilers and interpreters – Structure of a C program –

Programming rules – Executing the program - C declarations – Introduction – C

character set – Delimiters – C key words – Identifiers – Constants – Variables – Rules

for defining variables – Data types – Declaring variables – Initializing variables – Type

conversion – Constant and volatile variables - Operators and Expressions –

Introduction – Priority of operators and their clubbing- Comma and conditional operator-

Arithmetic operators- Relational, Logical and Bitwise operators- Input and Output in

C- Introduction – Formatted and Unformatted functions- Commonly used library

functions- Decision statements – Introduction – if, if-else, nested if-else, break,

continue, goto, switch ( ), nested switch ( ), switch ( ) case and nested if statements -

Loop control statements- Introduction- for loop, nested for loop,while loop, do-while

loop, do- while statement with while loop

UNIT III FUNCTIONS AND ARRAYS 9 Functions – Introduction- Declaration of function and function prototypes-The return

statement- Types of functions-Call by value and Call by reference-Function returning

more values-Function as an argument- Function with operators - Function and decision

statements-Function and loop statements-Functions with arrays and pointers- Recursion-

Pointer to function- Storage class –Introduction- Automatic, External, Static and

Register variables- Arrays- Introduction- Array initialization – Definition of array-

Characteristic of array-One dimensional array - Predefined Streams - Two dimensional

array - Three or multi-dimensional arrays – sscanf ( ) and sprintf ( ) functions –

Operation with arrays.

UNIT IV STRINGS AND POINTERS 9 Working with strings and Standard functions - Introduction - Declaration and

initialization of string – Display of strings with different formats – String standard

functions – Pointers – Introduction – Features of pointers – Pointer declaration –

Arithmetic operations with pointers – Pointers and arrays – Pointers and two-

dimensional arrays – Array of pointers – Pointers to pointer – Pointers and strings – Void

pointers –Dynamic memory allocation – Dynamic memory allocation – Memory

models – Memory allocation functions.

L T P C

3 1 0 4

14

UNIT V STRUCTURE, UNION AND FILES 9 Structure and Union – Introduction – Features of structures – Declaration and

initialization of structures – Structure within structure – Array of structures – Pointer to

structure – Structure and functions – Typedef – Bit fields – Enumerated data type –

Union – Calling BIOS and DOS services – Union of structures - Files – Introduction -

Streams and file types – Steps for file operations – File I/O – Structures read and write –

Other files functions – Searching errors in reading / writing files – Low level disk I/O –

Command line arguments – Application of command line argruments – Environment

variables – I/O redirection.

L: 45, T: 15 Total : 60Hrs

TEXT BOOK

1. ITL Education Solutions Limited, A N Kamthane, “Computer Programming “,

Pearson Education (India), 2009.

REFERENCES

1. Byron S Gottfried, “Programming with C”, Second Edition, Schaum’s OuTlines,

Tata MCGraw –Hill Publishing Company Limited, 2006.

2. E.Balagurusamy,”Programming in ANSI C”, Fourth Edition, TMH, 2007.

15

GHE101 PERSONAL VALUES - I


UNIT – I 5 Introduction – Importance’s of Human Excellence – Objectives – Personal Values –

definitions- purpose and Philosophy of Human life – Body, Mind and Soul – Physical

exercises introductions.

UNIT – II 5

Introduction - Need and Practice – Analysis of thought – origins of thought and its

effect – what you think, you become – Refinement of desire – Physical exercises

continuation – Meditations – I stage (Agna Initiation)

UNIT- III 5 Anger management - What is Anger – Its evil effect - Neutralizations of anger– Practice

– Worry – why to Worry – Eradications of worries – Method – Physical exercises –

continuation – Meditation – II stage (Santhi Initiation)

Total : 15Hrs

L T P C

1 0 0 1

16

CHY401 CHEMISTRY LABORATORY


OBJECTIVES Should be Conversant with the theoretical principles and experimental procedures for

quantitative analysis and hands on experience in using analytical equipments.

PREPARATION OF SOLUTIONS (STANDARD) 1. Preparation of normal solutions of the following substances - oxalic acid, sodium

carbonate, hydrochloric acid.

2. Preparation of phosphate buffer using Henderson equation.

WATER TESTING 3. Determination of total, temporary and permanent hardness by EDTA method.

4. Estimation of DO by Winkler’s method.

5. Estimation of alkalinity by Indicator method.

6. Estimation of chloride by Argentometric method.

ELECTRO CHEMICAL ANALYSIS 7. Estimation of hydrochloric acid by pH metry.

8. Conductometric titration of strong acid and strong base.

9. Conductometric precipitation titration using BaCl2 and Na2SO4.

10. Estimation of Iron by potentiometry

PHOTOMETRY 11. Estimation of the Ferrous ions (Thiocyanate method) by Spectrophotmetry.

12. Estimation of sodium and potassium by Flame photometry.

Total : 45Hrs

REFERENCES

1. Jeffery, G.H., Bassett, J., Mendham, J. and Denny, R.C., Vogel’s Text Book of

Quantitative Chemical Analysis, Oxford, ELBS, London, 2002.

2. Shoemaker D.P. and C.W. Garland., Experiments in Physical Chemistry, Tata

McGraw-Hill Pub. Co., Ltd., London, 2003.

3. Shoba, U.S., Sivahari, R. and Mayildurai, R., Practical Chemistry, Inder Publications,

Coimbatore, 2009.

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17

MEC401 ENGINEERING PRACTICES LABORATORY


A. CIVIL ENGINEERING

1. Carpentry

• Study of carpentry tools

• Preparation of T joint

• Preparation of dovetail joint

2. Plumbing

• Study of pipeline joints

• Preparation of plumbing line sketches for water supply.

B. MECHANICAL ENGINEERING

1. Fitting

• Study of fitting tools

• Preparation of L joint

• Preparation of square joint

2. Sheet Metal Working

• Study of sheet metal working tools

• Preparation of cone and tray

3. Welding

• Study of arc welding tools and equipment

• Preparation of butt joint

21

Group - II (Electrical & Electronics Engineering)

C. ELECTRICAL ENGINEERING PRACTICE 12

• Basic household wiring using switches, fuse, indicator-lamp, etc.,

• Preparation of wiring diagrams.

• Stair case light wiring.

• Tube light wiring

• Study of iron-box, fan with regulator, emergency lamp and microwave

oven.

L T P C

0 0 3 1

18

D. ELECTRONIC ENGINEERING PRACTICE 12

List of Experiments

1. Assembling simple electronic component on a small PCB and Testing.

2. Soldering simple electronic circuits and checking continuity.

3. Measurements using digital multimeter.

• DC and AC voltage measurement

• DC and AC current measurements.

• Resistance Measurement.

• Continuity measurement.

4. Testing of Electronic components

• Resistors

• Inductors and capacitors

• Diodes (resistance in forward bias and reverse bias)

• Transistors

5. Study of CRO and Function generator

• Study of Panel Controls

• Measurement of Amplitude, Frequency, phase difference

.

Total : 45Hrs

19

CSE401 PROGRAMMING LABORATORY (Common to all branches of Engineering and Technology)

LIST OF EXERCISES

1. Practice sessions on the usage of Office package.

2. To find the biggest of 3 numbers.

3. To find whether the given number is an Armstrong number.

4. To find the roots of a quadratic equation.

5. To sum the individual digits of an integer.

6. To evaluate the sine series and to generate Fibonacci series.

7. To perform matrix operations

• Calculation of row sum and column sum

• To find the maximum and minimum number

• Addition and multiplication

8. To perform string operations.

9. To check whether a given number is prime or not using functions(use all function

prototypes)

10. To compare two strings using pointers.

11. Mark sheet processing using files.

Total : 45Hrs

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0 0 3 1

20

ENG102 ENGLISH FOR PRAGMATIC USAGE

(Common to all B.E / B.Tech courses)

OBJECTIVES To impart the reading comprehension through interpretative and analytic reading

exercises, provide exposure to the learners on drafting letters and filling up several

applications, improve the level of competency of public speaking with special reference

to academic related situations besides, giving practical exposure to professional and

formal speaking.

READING COMPREHENSION 10 1. Exercises to examine the reading comprehension capacity

2. reading for global understanding

3. Reading for specific information

4. Reading for Reviewing (Books, Articles)

TARGETTED WRITING 15

5. Writing Applications

Opening an SB account and filling bank challans for various purposes

Applying for a Passport

Filling applications for competitive exams

Applying for Medical Leave

6. Drafting Job Application Letters

Writing Resume

7. Writing Statement of Purpose for pursuing higher studies abroad

8. Preparing Notices and Circulars

9. Booking train tickets Online

10. Thematic writing

PUBLIC SPEAKING 10 11. Appropriate stress and tonal variation

12. Accent neutralization and pronunciation improvement

13. Welcoming a gathering

14. Proposing a Vote of Thanks

15. Compering

16. Presenting one’s perception on the picture given

17. Giving Seminars

KINESTHETICS & FORMAL SPEAKING 10

18. Assessing body language during presentation

19. Involving in constructive conversation

20. Assigning formal situations to enhance the style of telephonic conversation

21. Discriminating assertive and aggressive conversation

22. Power point presentations

Total : 45Hrs

TEXT BOOK

1. Rizvi Ashraf. M, Effective Technical Communication, Tata McGraw Hill Publishing

Co., Ltd., New Delhi.

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1 0 2 2

21

REFERENCES

1. Aruna Koneru , Professional Communication, Tata McGraw Hill Publishing Co.,

Ltd., New Delhi, 2008.

2. Devadoss, K & Malathy. P, Enhance your Employability, Inder Publications,

Coimbatore, 2009

22

MAT103 ENGINEERING MATHEMATICS II

(Common To CSE, IT, TXT, FT & BT Branches)

OBJECTIVES On completion of the course the students are expected

• To understand double and triple integrations and enable them to find area and

volume using multiple integrals.

• To know the basics of vector calculus comprising gradient , divergence and curl

and line, surface and volume integrals.

• To understand analytic function and its properties

• To understand linear, inverse, circular and bilinear transformations.

• To know the basics of residues, complex integration and contour integration.

UNIT – I MULTIPLE INTEGRALS 9 Double integration – Cartesian and polar coordinates – Change of order of integration –

Area as a double integral – Triple integration in cartesian coordinates – Change of

variables between cartesian and polar coordinates.

UNIT – II VECTOR CALCULUS 9 Gradient, divergence and curl – Directional derivative – Irrotational and Solenoidal

vector fields - Green’s theorem in the plane, Gauss divergence theorem and Stoke’s

theorem (excluding proofs) – Simple applications involving cubes and rectangular

parallelopipeds.

UNIT – III ANALYTIC FUNCTION 9 Functions of a complex variable – Analytic function – Necessary conditions, Cauchy

Riemann equations in Cartesian coordinates and sufficient conditions (excluding proofs).

Properties of analytic function – Construction of analytic function by Milne Thomson

method.

UNIT – IV CONFORMAL MAPPING 9

Conformal mapping: w = z + c, cz and w = cz + b, 1/z, z2, e

z, Sin z, Cos z and Bilinear

transformation – Critical points – Invariant points.

UNIT – V COMPLEX INTEGRATION 9 Cauchy’s integral theorem and Cauchy’s integral formula (excluding proofs) – Taylor’s

and Laurent’s series expansions – Singularities – Classification – Residues – Cauchy’s

residue theorem (excluding proof) – Contour integration – Unit circle and semi-circular

contours (excluding poles on real axis).

L: 45, T: 15 Total : 60Hrs

TEXT BOOK ;

1. Veerarajan T., “Engineering Mathematics” (for First Year), Tata McGraw Hill Pub.

Co. Ltd., New Delhi, Revised Edition, 2007.

REFERENCES

1. Kreyzig E., “Advanced Engineering Mathematics”, John Wiley & Sons (Asia) Pvt,

Ltd., Singapore, 8th

Edition, 2001.

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3 1 0 4

23

2. Grewal B.S., “Higher Engineering Mathematics”, Khanna Publishers, Delhi, 36th

Edition, 2001.

3. Kandasamy P., Thilagavathy K., and Gunavathy K., “Engineering Mathematics”, S.

Chand & Co., New Delhi, (Re print ) 2008.

4. Arunachalam, T., “Engineering Mathematics II”, Sri Vignesh Publications,

Coimbatore. (Revised) 2009.

24

PHY106 APPLIED PHYSICS

(Common to Textile Technology, Biotechnology, and Fashion Technology)

OBJECTIVES At the end of the course the students would be exposed to

• Properties of conducting, super conducting, magnetic and dielectric materials.

• Properties of Semi conducting, optical and new engineering materials.

• Application of ultrasonic and nuclear physics in medicine.

UNIT – I CONDUCTING MATERIALS 9 Classical free electron theory of metals-electrical conductivity – Thermal conductivity -

expression – Wiedemann Franz law(derivation) – Lorentz number – drawbacks of

classical theory – Fermi distribution function – density of energy states – effect of

temperature on Fermi energy – Superconducting phenomena – properties of

superconductors – Meissner effect, Isotope effect, Type I &Type II superconductors –

High Tc superconductors - Applications – cryotron, magnetic levitation and squids.

UNIT - II SEMICONDUCTING MATERIALS 9 Origin or band gap in solids (Qualitative treatment only) - Concept of effective mass

of an electron and hole – carrier concentration in an intrinsic semi conductor (derivation)

– Fermi level – variation of Fermi level with temperature - Electrical conductivity – band

gap semiconductor – carrier concentration in n-type and p-type semi conductors

(derivation) – Variation of Fermi level with temperature and impurity concentration –

Hall effect – Determination of Hall coefficient – experimental set up – Applications.

UNIT – III MAGNETIC & DIELECTRIC MATERIALS 9

Properties of dia, para, ferro, anti ferro and ferri magnetic materials - Langevin’s theory

of paramagnetism – Determination of paramagnetic susceptibility of a solid Weiss

theory of Ferromagnetism – Domain theory of ferromagnetism - hysteresis – soft and

hard magnetic materials – Ferrites – Applications - magnetic recording and readout -

Storage of magnetic data, Tapes, floppy and magnetic disc drives – magnetic memories –

Core memory and Bubble memory - dielectric materials – Electronic ionic, orientation

and space charge polarization - Frequency and temperature dependence of polarization –

Die electric loss – Dielectric breakdown – different types of break down mechanism -

Ferro electric materials - properties and applications.

UNIT – IV NANOTECHNOLOGY AND NEW ENGINEERING MATERIALS 9 Metallic glasses – preparation, properties and applications – shape memory alloys

(SMA) – characteristics, properties of NiTi alloy applications advantages and

disadvantages of SMA – Nano materials - synthesis - plasma arcing – Chemical vapour

deposition – sol-gel - Electro deposition – ball milling – properties of nanoparicles and

applications. – Carbon nano tubes – fabrication - arc method – pulsed laser deposition -

Chemical vapour deposition - structure, properties & applications.

UNIT – V MEDICAL PHYSICS 9 Ultrasound picture of human body – Block diagram of basic pulse Echo system – A Scan

– B scan & M Scan Phsychological effect - ultrasound therapy – Phonocardiograph

(PCG) source of radioactivity for nuclear medicine - statistical aspects – Basic

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instrumentation (Geiger Muller counter, Photo multiplier Tube & Scintillation detector

(Renogram) and its clinical applications (Thyroid and Kidney function) – Nuclear

medicine imaging devices - Gamma Camera - Positron camera.

Total : 45Hrs

TEXT BOOKS

1. Avadhanalu.M.N. and Kshirsagar.P.G, “A textbook of Engineering Physics,”

S.Chand & Company Ltd, New Delhi, 2005.

2. Pillai S.O., Solid State Physics, 5th edition, New Age International Publication, New

Delhi, 2003.

REFERENCES

1. Rajendran V. and Marikani A., “Materials Science” Tata McGraw Hill Publishing

Company Limited, New Delhi, 2005

2. Gopal.S, “Materials Science” Inder Publications, Coimbatore, 2007.

3. Ali Omar M, Elementary Solid State Physics, Pearson Education (Singapore), Indian

Branch, New Delhi, 2002.

4. Arumugam M., Biomedical Instrumentation, 2nd edition, Anuradha Agencies,

Kumbakonam, 2003.

5. Palanisamy, P.K., Materials Science, 2nd Edition, Scitech Pub. India, Pvt., Ltd.,

Chennai, 2003

26

CHY105 CHEMISTRY FOR TEXTILES

(Textile, Fashion Technology)

OBJECTIVES To impart a sound knowledge of theoretical and modern technological aspects of

high polymeric and dyeing materials, water technology, corrosion science as required for

the Textile & Fashion technology students.

UNIT I CHEMICAL BONDING 9 Ionic, covalent and co-ordinate covalent bonds (overview only) - nature of covalent

bond, hybridization and formation of hydrocarbons - bond polarity - dipole moment and

its applications - hydrogen bonding and its consequences - Vander Waal’s forces and

physical properties - interaction between fibers and dyes ( basic concepts only).

UNIT II POLYMES 9 Monomers, polymers – functionality – degree of polymerization – classification based on

source, application, thermal properties (thermosetting and thermoplastics) - effect of

polymer structure on properties – types of polymerization (addition, condensation, co-

polymerization) - mechanism of polymerization (free radical mechanism, coordination

mechanism monometallic only) -Preparation (mechanism not required) and applications

of polythene, polypropylene, TEFLON, polystyrene, polyvinyl chloride, polyamides

(nylon 6,6), polyesters (PET), Vulcanization of rubber – rubber blended plastics.

UNIT III DYES 9 Chromophore and auxochromes - introduction to natural and reactive dyes - synthesis of

acid dye (Congo red), basic dye (Malachite green), mordant dye (Alizarin), ingrain dye

(Bismark brown), vat dye (Indigo), azodyes (alizarin), phthalein dyes (Eosin).

Introduction to separation of dyeing mixtures using chromatograophy (Column and Gas

chromatography)

UNIT IV CORROSION SCIENCE 9 Corrosion – Pilling – Bedworth rule – principles of electrochemical corrosion – causes

and factors influencing corrosion –corrosion control – cathodic protection – corrosion

inhibitors.

Paints - constituents and functions –special paints (fire retardant, water repellant,

temperature indicating and luminous paints)

Varnishes and lacquers

UNIT V WATER TECHNOLOGY 9 Disadvantages of hard water in textile industries – conditioning methods: external

treatment methods (zeolite, ion exchange methods), internal treatment (colloidal,

phosphate, calgon, carbonate methods) – desalination (reverse osmosis, electro-dialysis)

– common effluent treatment methods.

Total : 45Hrs

TEXT BOOK

1. Kuriacose J.C. & Rajaram, J. Chemistry in Engineering and Technology, Vol.1 & 2,

Tata McGraw-Hill Pub. Co., Ltd., New Delhi,

2. Jain P.C. and Monika Jain, Engineering Chemistry, Dhanpat Rai Pub. Co. (P) Ltd.,

New Delhi, Edition 2004

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REFERENCES

1. Seymour, R.B. and Carraher, Polymer chemistry, Plenum publishing corporation,

New york,

2. I.L Finar , Organic chemistry., ELBS, Oxford Publishing house, India.

3. Syed Shabudeen P.S & Shoba U.S, Chemistry II, Inder publications, Coimbatore.

28

MEC102 ENGINEERING MECHANICS

(Common to CE, AE, ME, MCE, TXT, FT & BIO branches)

OBJECTIVES

• To understand the concept of equilibrium of particles and rigid bodies.

• To understand the concept of first and second moment of area.

• To understand the concept of various types of frictions.

• To understand the principle of work energy method, Newton’s law and impact of

elastic bodies.

UNIT- I BASICS & STATICS OF PARTICLES 12 Introduction - Units and Dimensions - Laws of Mechanics Lame’s theorem,

Parallelogram and triangular Laws of forces – Coplanar Forces - Resolution and

Composition of forces – Free body diagram - Equilibrium of a particle.

UNIT- II EQUILIBRIUM OF RIGID BODIES 12 Moment of a force about point – Varignon s theorem- Moment of a couple-Resolution of

force in to force couple system-Resultant of coplanar non concurrent system - Types of

supports and their reactions- Requirements of stable equilibrium - Equilibrium of Rigid

bodies in two dimensions.

UNIT- III PROPERTIES OF SURFACES AND SOLIDS 12 First moment of area and the Centroid of sections Rectangle, circle, triangle, T section, I

section Angle section and Hollow section. Second and product moments of plane area

Rectangle, triangle, circle. T Section, I section, Angle section and Hollow section,

Parallel axis theorem and perpendicular axis theorem - Polar moment of inertia.

UNIT- IV FRICTION 12 Frictional force-Law of coloumb friction , simple contact friction, Rolling resistance and

Belt friction, Ladder friction, Wedge friction

UNIT- V DYNAMICS OF PARTICLES 12 Kinematics: Rectilinear & Curvilinear motion of particles, Displacements Velocity and

acceleration.

Kinetics: Newton’s law, Work Energy method, Impulse and Momentum, Impact of

elastic bodies.

L: 45, T: 15, Total : 60Hrs

TEXT BOOKS

1. Rajasekaran S, Sankarasubramanian, G, Fundamentals of Engineering Mechanics,

Vikas Publishing House Pvt. Ltd., Second Edition, 2002.

2. Beer, F.P. and Johnson Jr. E.R. Vector Mechanics for Engineers, Vol. 1. Statics and

Vol. 2 Dynamics, McGraw-Hill International Edition, 2004.

REFERENCES:

1. Hibbeller, R.C. Engineering Mechanics, Vol, 1 Statics, Vol, 2 Dynamics, Pearson

Education Asia Pvt. Ltd., 2000

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2. Ashok Gupta, Interactive Engineering Mechanics Statics A Virtual Tutor, Pearson

Education Asia Pvt. Ltd., New Delhi, 2002.

3. Palanichamy, M.S, and Nagan, S., Engineering Mechanics (Statics & Dynamics)

Tata McGraw Hill, 2001.

4. Irving H, Shames, Engineering Mechanics – Statics and Dynamics, IV Edition,

Pearson Education Asia Pvt. Ltd., 2003.

30

FTY101 FIBRE SCIENCE

OBJECTIVES

To enable students to acquire knowledge on:

• Cultivation and production of Natural and Man – made fibres.

• Properties of natural, man-made and speciality fibres

• Identification methods of natural and man-made fibres.

UNIT – I INTRODUCTION 10 Definition of various forms of textile fibres - staple fibre, filament, bicomponent fibres.

Classification of Natural and Man-made fibres, essential and desirable properties of

fibres.

Natural Fibres: Production and cultivation of Natural Fibers: Cotton, Silk, Wool, Flax,

Jute -Physical and chemical structure of the above fibres.

UNIT - II REGENERATED AND MODIFIED FIBERS 10 Production Sequence of Modified Cellulosic fibres - Viscose Rayon, Acetate – High wet

modulus: Modal and Lyocel ; Regenerated protein fibres – Caesin and Soyabean.

Synthetic Fibres: Production Sequence of Synthetic Fibers: Polyester, Nylon and

Acrylic. Introduction to spin finishes and texturisation.

UNIT - III BASIC FIBRE PROPERTIES 10 Physical (Tensile, Moisture, Density), Chemical, Biological, Thermal and Optical

Properties of the above Natural, Synthetic, Regenerated and Modified fibres.

UNIT – IV SPECIALITY FIBRES 8 Properties and end uses of high tenacity and high modulus fibres, high temperature and

flame retardant fibres, elastomeric fibres, PLA fibre, ultra-fine fibres, nano-fibres,

metallic fibres – Gold and Silver coated; Super-absorbent fibres for medical and hygiene

applications.

UNIT – V LINEAR DENSITY 7

Fibre linear density and conversions.

Identification of Textile Fibers : Appearance (Microscopic view, Colour), Solubility,

density and Burning tests.

Total : 45Hrs

TEXTBOOKS

1. Srinivasa Murthy, H.V., “Introduction to Textile Fibres”,The Textile

Association India, 1993

2. Mishra S.P.,“Fibre Science & Technology”, New Age International Publishers, 2000.

3. Corbman B.P., “Textiles: Fibre to Fabric”, McGraw Hill International Edn,1983.

REFERENCES

1. Morton, W.E and Hearle, J.W.S., "Physical Properties of Textile Fibres", The Textile

Institute, Manchester, U.K., 1993.

2. Muthopadhyay S.K., “Advances in Fibre Science”, The Textile Institute, UK 1992.

3. Collier. B and Tortora.P, “Understanding Textiles”, Edition 6, Prentice Hall, 2001.

4. Gupta V.B., “Textile Fibres: Developments and Innovations”, Vol. 2, Progress in

Textiles: Science & Technology, Edited by V.K. Kothari, IAFL Publications, 2000.

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PHY401 PHYSICS LABORATORY


1. Torsional Pendulum determination of rigidity modulus of wire and moment of inertia

of disc.

2. Non Uniform Bending - Young modulus determination

3. Viscosity- Determination of co-efficient of Viscosity of liquid by Poiseuilles flow

4. Lee s disc- Determination of thermal conductivity of a bad conductor

5. Air wedge- Determination of thickness of a thin wire

6. Determination of velocity of sound and compressibility of liquid - Ultrasonic

interferometer.

7. Determination of specific resistance of given coil of wire – Carey Foster’s Bridge.

8. Spectrometer - Determination of wavelength of Hg source using Grating

9. Determination of wavelength of Laser using Grating and Particle size determination

and acceptance angle in an optical fibre.

10. Determination of Band gap of semiconductor material.

Total : 45Hrs

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CSE451 ADVANCED PROGRAMMING LABORATORY

(For all branches other than CSE & IT)

List of Programs

UNIX & C

The following programs are to be executed in Linux environment.

C programs are expected to employ pointers wherever possible.

1. Create a file which contains the student details and perform the following operations.

a. Display the contents of a file on the screen.

b. Rename the file

c. Create a new directory and move the above file into it.

d. Copy the contents of two files into a third file.

2. Create a file which contains the employee details such as Employee No., Employee

Name, Employee Salary, Employee Designation and perform the following

operations.

e. Search for a particular employee.

f. Create a file containing details of employees with salary greater than 5000

using pipes.

3. List the files and directories created and change the access rights of the employee file

as follows.

g. Only readable

h. Only writable

4. Write a C program to find the roots of a quadratic equation of the form ax2+bx+c=0.

The roots can be calculated using the formula –b± √b2-4ac.

2a

Write a function to calculate the roots of the given equation. The function must

use three formal parameters to receive the coefficients a, b and c and two pointer

parameters to send the roots to the calling function.

5. Write a C program to find the sum of two (nxn) matrices and to print the resultant

matrix using pointers.

6. Write a C program to count

a. No .of characters.

b. No .of words.

c. No .of lines / sentences

in a given text file.

7. Write a C program that compares two text files and returns 0 if they are identical and

1 if they are not identical

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MATLAB PROGRAMS

8. Matrices – Addition, subtraction, multiplication, Inverse and Determinant of a matrix

calculation.

9. Polynomials –Evaluating & Plotting, determining roots of a polynomial.

10. Polynomial curve fitting.

11. Numerical integration.

12. Differential equations- numerical solution.

Total : 45Hrs

34

FTY401 FIBRE ANALYTICAL LAB

LIST OF EXPERIMENTS

1. Study of longitudinal view of natural and synthetic fibres

2. Study of cross-sectional view of natural and synthetic fibres

3. Identification of fibres through flammability tests

4. Identification of fibres through solubility tests

5. Determination of fibre density

6. Study of swelling behaviour of cotton and viscose in alkaline solution

7. Determination of blend proportion of blends

8. Determination of moisture regain of fibres

9. Determination of fineness of fibre

10. Estimation of spin finish in manmade fibres through Soxhlet extraction

11. Determination of fibre strength and elongation.

Total : 45Hrs

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GHE102 PERSONAL VALUES - II

UNIT – I 5 Understanding Self – Who am I? – self realisation - our different self – Kaya Kalpam –

Theory & practice – physical exercises – Completion – Meditation III stage (Thuria

Initiations)

UNIT – II 5

Harmony between body, mind & soul – physical well being – Exercises practical

benefits - Benefits of meditations – benefits of Kaya Kalpa – Applying the practices in

Life –

UNIT – III 5 Personal values – Identifications – Adaptations – Implementations – practices & Benefits

– Exercises, Meditation and Kaya Kalpa practices – perceptions.

Total : 15Hrs

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KCT-B.Tech [FT] III and IV Semester Curriculum and Syllabus [R: 2009]

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Signature of the Chairman BOS FT

KUMARAGURU COLLEGE OF TECHNOLOGY, COIMBATORE – 641 006

(An autonomous Institution affiliated to Anna University, Coimbatore)

CBCS CURRICULUM 2009

B.Tech - TEXTILE TECHNOLOGY (FASHION TECHNOLOGY)

SEMESTER III


THEORY

MAT106 Probability and Applied Statistics 3 1 0 4

FTY102 Concepts of Fashion and Design 3 1 0 4

FTY103 Yarn Technology 3 0 0 3

FTY104 Basic Garmenting Techniques 3 0 0 3

FTY105 Pattern Engineering 3 0 0 3

EEE255 Electrical and Electronics Engineering 3 0 0 3

PRACTICAL

FTY402 Fashion Design Laboratory - I 0 0 3 1

FTY403 Basic Garmenting Laboratory 0 0 3 1

EEE452 Instrumentation and Control Laboratory 0 0 3 1

GHE103 Human Excellence - Family Values 0 0 2 1

Total 18 2 11 24

TOTAL HOURS: 31 TOTAL CREDITS :24

SEMESTER IV


THEORY

CHY107 Environmental Science and Engineering 3 0 0 3

FTY106 Fashion Product Development 3 0 0 3

FTY107 Apparel Production Technology 3 1 0 4

FTY108 Apparel Machinery and Equipment 3 1 0 4

FTY109 Woven Fabric Manufacture and Structure 3 1 0 4

MEC221 Basics of Mechanical Engineering 3 1 0 4

PRACTICAL

FTY404 Fashion Design Laboratory - II 0 0 3 1

FTY405 Apparel Production Laboratory - I 0 0 3 1

FTY406 Fabric Analysis and Design Laboratory 0 0 3 1

GHE104 Human Excellence - Professional Values 0 0 2 1

Total 18 4 11 26

TOTAL HOURS : 33 TOTAL CREDITS :26


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MAT106 PROBABILITY AND APPLIED STATISTICS 3 1 0 4

(Common for III Semester TXT,FT,BIO & IV Semester IT,CSE )

OBJECTIVES:

On completion of the course, the students are expected

• To know the use of measures of central tendency, dispersion and correlation for

analysis of data.

• To understand the concepts of probability and random variables.

• To know about some standard distributions and their properties.

• To be able to test hypothesis using various tests for large and small samples.

• To analyze experiments based on one-way, two – way and Latin square

classifications.

• To understand the basics of quality control using control charts.

UNIT I Statistical Measures 9

Measures of central tendency: Mean, Median and Mode – Measures of variation –

Range, standard deviation, Mean deviation and coefficient of variation. Correlation and

Regression: Karl Pearson’s coefficient of correlation –Rank Correlation – Regression

lines (Definitions and simple numerical problems only).

UNIT II Probability and Random Variable 9

Axioms of probability - Conditional probability - Total probability – Baye’s theorem -

Random variable – Distribution function – properties - Probability function - Probability

density function – moments and moment generating function – properties.

UNIT III Standard Distributions 9

Binomial, Poisson and Normal distributions –properties- Fitting of Binomial, Poisson and

normal distributions to data.

UNIT IV Testing of Hypothesis 9

Testing of hypothesis for large samples (single mean, difference of means, single

proportion, difference of proportions) – Small samples tests based on t and F

distributions (single mean, difference of means, paired t- test and variance ratio test) –

Chi-square test for independence and goodness of fit - Simple numerical problems only.

UNIT V Design of Experiments and Quality Control 9

Analysis of variance – One way classification –Two – way classification – CRD - RBD -

Latin square – LSD; Concept of process control - Control charts for variables – X , R –

charts – Control charts for attributes – p, np, c – charts – Tolerance limits.

L: 45 T: 15 Total: 60Hrs

TEXT BOOKS:

1. Veerarajan T., “Probability and Statistics”, Tata McGraw-Hill, New Delhi, 2007 and

2nd

Reprint 2004.

2. Gupta S. P, “Statistical Methods”, Sultan Chand and Sons Publishers, 2004. (Unit - I)


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REFERENCES:

1. Johnson R. A., “Miller and Freund’s Probability and Statistics for Engineers”, Sixth

Edition, Pearson Education, Delhi, 2000.

2. Gupta S.C, and Kapur, J.N., “Fundamentals of Mathematical Statistics”, Sultan

Chand, Ninth Edition, New Delhi, 1996.

3. Walpole R. E., Myers S.L. and Keying Ye, “Probability and Statistics for

Engineers and Scientists”, Pearson Education Inc., 2002.

4. Arunachalam T., “Probability and Statistics”, Inder Publications, Coimbatore, 2008.


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FTY102 CONCEPTS OF FASHION AND DESIGN 3 1 0 4

OBJECTIVES:

• To educate on the principles and concepts of design and fashion designing.

• To impart knowledge on the historic costumes and textiles.

UNIT I Design Concepts 12

Design – definition, Design types- fabric design- motif development -natural, stylized,

geometric, historic and abstract, garment design- structural, decorative and functional.

Elements of Design –line, shape, form, size, colour, texture and pattern. Principles of

Design – Harmony, Balance, Rhythm, Emphasis and Proportion. Introducing elements

and principles of design in apparels.

UNIT II Colour Concepts 12

Color – Definition, Dimensions of colour-Hue, Value and Intensity, Colour categories

and characteristics- Warm and Cool Colours, Advancing and Receding colours, Colour

theories – Prang colour system and Munsell colour system - colour harmonies - colour

psychology.

UNIT III Fashion Fundamentals 12

Fashion -Definition, Classification of Fashion, tangibles and intangibles of Fashion,

Principles of Fashion, Fashion life cycle, Fashion Adoption Theories. Fashion

Terminology -Street Fashion, Recurring Fashion, Mass Fashion, Fashion Trend, Fashion

shows, Style, Chic, Boutique, Haute Couture, Fashion designers – definition, role and

study of leading Fashion designers - French, Italian, American, Indian and British.

UNIT IV Fashion Designing Process 12

Fashion Forecasting – role of forecasting agencies, techniques and presentation of

forecast. Design process – Innovation of practice, analyzing the brief, Research

Inspiration – Research direction, prototyping, planning a collection, designer boards and

portfolio presentation

UNIT V Historic Costumes and Textiles 12

Origin and importance of clothing, Factors influencing costume changes. Costumes of

ancient civilization – Egypt, Greece, Rome, British and French empires during

Renaissance period 1500 - 1600 AD, Traditional Costumes of India, China and Japan.

Traditional Textiles of India – Dacca Muslin, Jamdhani, Himrus and Amrus, Kashmir

shawls, Kancheepuram and Baluchari saris, Paithani saris, Chanderi Saris, Benaras

Brocades, Bandhani, Patola, Ikkat, Block printed and Kalamkari.


TEXT BOOKS:

1. Kathryn McKelvey and Janine Munslow, “Fashion Design: Process, Innovation and

Practice”, Blackwell Publishing, USA, 2005.

2. Diane.T and Cassidy. T, “Colour forecasting” Blackwell Publishing, 2005


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REFERENCES:

1. Dar, S.N,. “Costumes of India and Pakistan”, D.B Tataporevala Sons and Co. Ltd.,

1982.

2. Churye G.S, “Indian Costume”, Popular Prakashan Pvt. Ltd., Bombay, 1995.

3. Hatanaka Kokyo Collection –“Textile arts of India”, Chronide Books, 1996

4. Elaine Stone, Jean A. Samples, “ Fashion Merchandising” McGraw-Hill Book

Company (1985)

5. Russel Gillow and Nicholas Barnard, “Traditional Indian Textiles”, Thames and

Hudson Ltd.,London, 1991.

6. Douglas.A. Russel, “Costume History and Style”, Prentice Hall Inc., 1983

7. Elizabeth Rouse, “Understanding Fashion”, Blackwell Scientific Publication, Oxford,

1989.

8. Katherine Morris Lustre, “Historic Costume”, Chas A. Bennett Co., Publishers,

Peoria, Illinois, 1956.

9. Sumathi,G.J, “ Elements of Fashion and Apparel Design”, New Age International (P)

Ltd, 2005.


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FTY103 YARN TECHNOLOGY 3 0 0 3

OBJECTIVES:

• To impart knowledge on the conventional and modern yarn manufacturing

process

• To impart knowledge on the post spinning techniques

• To educate on the quality parameters of various yarns

UNIT I 9

Short Staple Spinning System (Cotton): Ginning- objectives, types, suitability and

principle of working. Sequence of process in cotton spinning; Objectives and principles

of working of Blow room, Carding, Drawing, Combing, Simplex and Ring spinning.

UNIT II 9

Long Staple Spinning System (worsted) - Sequence of process; objectives and

principles of working of Scouring, Drying, Oiling, Dyeing, Blending, Carding, Gilling

and Combing, Drawing, Roving and Spinning. Solo and Compact spinning systems -

objectives and principles of working.

UNIT III 9

Ringless Spinning Techniques: Principles of working of Rotor spinning, Air jet

spinning and DREF spinning systems.

Yarn Quality And Characteristics: Quality particulars of coarse, medium and fine

varieties of cotton, polyester, polyester / cotton, polyester / viscose and polyester / wool

yarns. Yarn faults, imperfections and their identification. Comparison of characteristics

of yarns from different spinning systems.

UNIT IV 9 Post Spinning: Objectives and principles of working of Cone winding, Cheese winding,

Reeling, Assembly winder, Ring doubler and Two for one twister (TFO) - Single yarn

and ply yarn characteristics and their applications. Package faults (Cones and Hanks) and

identification.

UNIT V 9 Sewing Thread Manufacture: Fibres used and their characteristics. Essential quality

requirements of sewing threads, Sequence of manufacturing process for sewing threads

for cotton, polyester and polyester / cotton blends.

Speciality Yarns: Fancy yarns, textured yarns and Melange yarns-Types and

classifications. Core spun yarn production technique in ring frame.

Total: 45Hrs

TEXT BOOKS:

1. Klien. W. G,” The Technology of Short Staple Spinning”, The Textile Institute,

Manchester, 1988 (five volumes)

2. Mahendra Gowda, R. V, “New Spinning Systems”, NCUTE Publication, Second

Edition, 2006


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REFERENCES:

1. Joseph. M. L, “Essentials of Textiles”, Hold Rienhart Winston Pub. Co., New York,

1990

2. Oxtoby E, “Spun Yarn Technology”, Butterworth and Co., London, 1991.

3. Corbmann, B. P, “Textiles: Fibre to Fabric”, McGraw Hill Inc., USA, 1996.

4. Chellamani, K. P, Chattopadhyay. D, “Yarns and Technical Textiles” SITRA

publication, First Edition, 1999


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FTY104 BASIC GARMENTING TECHNIQUES 3 0 0 3

OBJECTIVES:

• To impart knowledge on the types and classifications of various garment

details

• To educate on the quality parameters of seams and accessories.

UNIT I 9

Seams: Definition, Types of seams – Federal classifications, factors to be considered in

the selection of seam, seam finishes and seam defects. Stitches: Definition, stitch classes

- Federal classifications, stitch parameters, factors to be considered in the selection of

stitches. Stitching defects.

UNIT II 9

Fullness: Definition, types- Darts – single, double pointed darts, tucks - pin tucks, cross

tucks, piped tucks, shell tucks. Pleats- knife pleats, box pleats, invertible box pleats, Kick

pleats. Flare, godets, gathers, shirring, single, double frills and flounces. Hemming

Techniques: Definition, types - machine stitched hem and hand-stitched hem. Neckline

finishes- preparation of bias strip, bias facing, bias binding, fitted facing and French

binding.

UNIT III 9

Sleeves: Types of sleeves - plain, puffs, gathered, bell, bishop, circular, leg-o-mutton,

Magyar sleeves, Raglan sleeves, kimono. Construction of plain sleeve. Yokes: Definition

– Selection of yoke design, different styles of yoke. Simple yoke – yokes with or without

fullness – midriff yokes, panel yokes, partial yokes. Methods of attaching yokes on

garments.

UNIT IV 9

Collars: Classification of collars, Types of collars– flat collars (peter pan collar,

scalloped, flared, puritan collar, sailor collar) convertible collar, shirt collar with stand,

straight collar, shawl and rever collar. Pockets: Types – patch pocket – creating

variations, set in pocket - bound pocket, welt pocket, pocket in a seam - front hip pocket.

Attaching flap to a pocket.

UNIT-V 9

Plackets: Conspicuous plackets, inconspicuous plackets - Tailored or Kurtha placket,

shirt placket, continuous bound placket, two-piece placket, fly opening, zipper placket.

Fasteners: Classifications and types. Application of zippers, button and buttonholes,

hooks and eye snaps, Velcro, eyelets cords and rivets.

Total: 45Hrs

TEXT BOOKS:

1. Gerry Cooklin, “Garment Technology for Fashion Designers”, Blackwell Science

Ltd., 2001.

2. Mary Mathews, “Practical Clothing Construction Part I and II”, Paprinpack, Madras,

2000.


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REFERENCES:

1. Leila Aitken., “Step By Step Dress Making Course”, BBC Books,1992

2. Amaden. C. and Crawford, A guide to Fashion Sewing, Fairchild Publications, 2001.

3. Claire Shaeffer, “Sewing for the Apparel Industry”, Prentice-Hall Inc, New Jersey,

2001

4. Fan.J., Yu.W., and Hunter.L., “Clothing Appearance and Fit: Science and

Technology”, The Textile Institute, Manchester, 2004

5. Joseph. H and Amstrong, “Pattern Making for Fashion Design”, Pearson Education

Inc, 2005

6. Sumathi,G.J, “ Elements of Fashion and Apparel Design”, New Age International (P)

Ltd, 2005.

7. Federal standards, stitches and seams.


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FTY105 PATTERN ENGINEERING 3 0 0 3

OBJECTIVES:

• To impart knowledge on the basic techniques used for preparing garment

patterns

• To impart knowledge on grading and pattern alteration methods

UNIT I Basic Pattern Making 9

Patterns – definition and types – individual and commercial patterns. Pattern making –

definition and types of pattern making- drafting, draping, flat pattern techniques, their

advantages and disadvantages. Tools for pattern making. Body measurements –

importance, principles, precautions. Size charts – (ASTM Standards) definition and

standardization.

UNIT II Drafting 9

Basic principles and methodologies used to draft standard basic block patterns for men,

women and kids wear- top, skirt and bifurcated garment. Difference between permanent

pattern, (Draft) Working patterns and Production patterns. Importance of pattern details –

pattern name, cut number, on fold details, drill hole marks in the darts, Seam allowances,

notches, Balances marks and grain lines.

UNIT III Draping 9

Draping - Tools for Draping. Draping skills – preparation of basic blocks- bodice, skirt

sleeve, trouser ,cowl neck line and shawl collar.

UNIT IV Flat Pattern Techniques 9

Dart Manipulation – basic techniques – pivot method, slash and spread, measurement

method. Applications of dart manipulation – transferring, combining, dividing,

converting into seams and fullness, shaped darts. Added fullness method.

UNIT V Pattern Alteration and Grading 9

Pattern alteration - definition, principles, techniques – Lengthening, shortening,

widening, narrowing patterns according to required body measurements by slash and

spread or slash and overlap methods.

Grading – Definition, Principles and types –manual grading and computerized grading

for bodice block, sleeve and skirt.

Total: 45Hrs

TEXT BOOKS:

1. Helen Joseph Armstrong, “Pattern Making for Fashion Design” Pearson Education

(Singapore) Pvt. Ltd.,2005

2. Winifred Aldrich, “Metric Pattern Cutting” Blackwell Science Ltd.,1994

REFERENCES:

1. Gillian Holman, “Pattern Cutting Made Easy”, Blackwell Scientific Publications,

1997.

2. Natalie Bray “More Dress Pattern Designing” Blackwell Scientific Publications,

1986.


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3. Gillian Holman, “Pattern Cutting Made Easy”, Blackwell Scientific Publications

1997.

4. Gerry Cooklin, “Master Patterns and Grading for Women’s Outsizes”, Blackwell

Scientific Publications, 1995.

5. Gerry Cooklin “ Master Patterns and Grading for Men’s Outsize”, Blackwell

Scientific Publications,1992

6. Jeenne Price and Bernard Zamkoff, “Grading Techniques for Modern Design”

Fairchild Publications, 1990


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EEE255 ELECTRICAL AND ELECTRONICS ENGINEERING 3 0 0 3

(For III Semester FT)

OBJECTIVE:

• Quantitative treatment of the subject with only theory and no problems.

UNIT I Fundamental Laws of Electrical Engineering 9

Units, Ohm’s Law, Kirchhoff’s Laws, Ampere’s Law, Reference Directions and

symbols, Energy and power, The Resistance parameter, The Inductance Parameter, The

Capacitance Parameter. Sinusoidal Functions – Terminology, Average and Effective

Values of Periodic Functions, Instantaneous and Average Power, Power factor, Phasor

Representation of Sinusoids, Sinusoidal Steady – State Response of Single Elements –

RLC, The Series RL circuit, The Series RC Circuit, The RLC Circuit.

UNIT II Electrical Machines 9

The Revolving Magnetic Field, Torque Speed Characteristics - Starting Torque and

Maximum Developed Torque, Ratings and Applications of Three Phase Induction

Motors. D.C. Generator Analysis, D.C. Motor Analysis, Motor Speed Torque

Characteristics, Speed control, Applications of D.C. Motors, Starters and Controllers for

D.C. Motors. Construction Features and Method of Operation of stepper Motor.

UNIT III Instrumentation 9

Principles and Types of Analog (PMMC and MI) – Voltmeter, Ammeter. Electro-

Dynamo Meter Type Watt Meter, Single Phase Induction type Energy Meter.

Classification of Transducer – Selection of Transducers – Resistive, Inductive and

Capacitive transducers.

UNIT IV Electronics Engineering 9

The Boltzmann Relation and Diffusion Current in Semiconductors, The Semiconductor

Diode , The Transistor (or Semiconductor Triode) , The Junction Field Effect Transistor

(JFET),Graphical Analysis of Transistor Amplifiers, Binary Logic - Logic Gates -Binary

and other Number systems -Conversions between Number Systems. An Elementary

Computer Basic Architecture –Microprocessors.

UNIT V Control Engineering 9

Distinction between Open Loop and Closed Loop (Feed back) control -Block Diagram of

Feedback Control system -Position Feed back Control system.

Total: 45Hrs

TEXT BOOKS:

1. Vincent Del Toro ‘Electrical Engineering Fundamental’ Prentice Hall (India) Pvt.

Ltd, 2002.

2. E.O. Doebelin, ‘Measurement Systems – Application and Design’, Tata McGraw

Hill publishing company, 2003.


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REFERENCES:

1. Edminister J A, “Electric Circuits”, Schaum’s Series. McGraw Hill, 2005

2. Van Valkenbergm, “Electric Circuits and Network Analysis”, Prentice Hall (India)

Pvt, Ltd, 2005.

3. Smarjith Ghosh, “Fundamentals of Electrical and Electronics Engineering”, Prentice

Hall (India) Pvt, Ltd, 2005.

4. Nagsarkar T K and Sukhija M S, “Basic of Electrical Engineering”, Oxford Press

2005.

5. Muthusubramaninan R, Salivahanan S and Muraleedharan K A, “Basic Electrical,

Electronics and Computer Engineering”, Tata McGraw Hill, Second Edition 2004.

6. A.K. Sawhney, ‘A Course in Electrical and Electronic Measurements and

Instrumentation’, Dhanpat Rai and Co, 2004.


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FTY402 FASHION DESIGN LABORATORY - I 0 0 3 1

LIST OF EXPERIMENTS

1. Basic Drawing Tools and Techniques, Study of different types of lines and strokes,

object Drawing, Shading concepts, Drape of fabrics and shading with different

mediums.

2. Introduction to colour - Dimensions of colour- Studying different kinds of colour-

Theories and Colour Harmonies -Preparing small Swatches for different colour

theories.

3. Motif Development – Design Repeat and positioning, Rendering prints and textures

with various fabric constructions (wovens, non-wonvens and knit)

4. Drawing different Silhouettes and garment components - sleeves, collars, necklines,

cuffs, skirts, pants

5. Human Anatomy- Figure basics, Constant proportions, Shapes and parts of human

body. Figure Construction, Skeleton figure, Study of different postures - Head- Face,

Eyes, Lips, Nose, Hand - Fingers, Leg - Feet and Toes, Hand and Arms.

6. Normal Drawing - Eight head theory. Drawing croqui figures-stick, geometric,

flesh- 7 ½, 8 ½, 9 ½ and 10 head figures.

7. Fashion Figure Drawing - Drawing croqui figures-stick, geometric, flesh - 9 ½ and 10

head figures.

8. Different postures of male and female figure - ¾ view, back view, side view.

Different poses like – S-Pose, X-Pose, and T-pose. Difference between normal and

fashion figure.

9. Drawing croqui figures using template, model, imagination and photograph.

10. Application of garments on flesh croqui figures.

Total: 45Hrs


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FTY403 BASIC GARMENTING LABORATORY 0 0 3 1

LIST OF EXPERIMENTS

1. Identification of machine parts and their functions – Single Needle Lock Stitch

(SNLS), Overlock, Flatlock machines with samples.

2. Preparing samples for basic Hand stitches.

3. Preparing samples for seams

4. Preparing samples for seam finish.

5. Preparing samples for Darts and fullness.

6. Preparing samples for plackets – continuous bound placket, 2 piece placket, tailors

placket, Fly opening and Zipper.

7. Preparing samples for Necklines – Bias facing, Bias Binding and Fitted facing.

8. Preparing samples for collars – Peter Pan collar, Full shirt collar, Shawl collar.

9. Preparing samples for pockets – Patch Pocket, Bound Pocket and Front Hip Pocket.

10. Preparing samples for Sleeves – Plain, Puff, Raglon ,Kimono, Cap Sleeve

Total: 45Hrs


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EEE452 INSTRUMENTATION AND CONTROL LABORATORY 0 0 3 1

(For III Semester FT)

LIST OF EXPERIMENTS

1. Characteristics of strain gauge

2. Characteristics of thermocouple

3. Characteristics of thermistor

4. Characteristics of LVDT

5. Calibration of Voltmeter and Ammeter

6. Study of CRO

7. Study of Function Generator

8. Measurement of Resistance

9. Variable speed control of Induction Motor

10. Variable speed control of DC Motor

Total: 45Hrs


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GHE 103 HUMAN EXCELLENCE – FAMILY VALUES 0 0 2 1

(Common to III Semester all Branches)

1. Family value-meaning –Introduction-values-Blessings for family peace-Restraint

in family life- harmony in family-Interactive workshop.

2. Blissful married life-Greatness of good family relationship – Family life &

Spiritual development.

3. Love and compassion –Greatness of womanhood –Food is medicine (healthy food

habits)

4. Simple physical exercises.

5. Kayakalpa Yoga .

6. Sun Rays Therapy

7. Padmasana.

8. Vajrasana.

9. Chakrasana & Viruchasana

10. Meditation


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CHY107 ENVIRONMENTAL SCIENCE AND ENGINEERING 3 0 0 3

(Common for III Semester EEE,IT,CSE & IV Semester TXT,FT,BIO,MCE,CIVIL, ME)

OBJECTIVES

At the end of this course the student is expected to understand what constitutes the

environment, what are precious resources in the environment, how to conserve these

resources, what is the role of a human being in maintaining a clean environment and

useful environment for the future generations and how to maintain ecological balance and

preserve bio-diversity.

UNIT I Introduction to Environmental Studies and Natural Resources 10

Definition, scope and importance – Need for public awareness – Forest resources: Use

and over-exploitation, deforestation, case studies. Timber extraction, mining, dams and

their effects on forests and tribal people – Water resources: Use and over-utilization of

surface and ground water, floods, drought, conflicts over water, dams-benefits and

problems – Mineral resources: Use and exploitation, environmental effects of extracting

and using mineral resources, case studies – Food resources: World food problems,

changes caused by agriculture and overgrazing, effects of modern agriculture, fertilizer-

pesticide problems, water logging, salinity, case studies – Energy resources: Growing

energy needs, renewable and non renewable energy sources, use of alternate energy

sources. Case studies – Land resources: Land as a resource, land degradation, man

induced landslides, soil erosion and desertification – Role of an individual in

conservation of natural resources – Equitable use of resources for sustainable lifestyles.

UNIT II Ecosystems and Biodiversity 14

Concept of an ecosystem – Structure and function of an ecosystem – Producers,

consumers and decomposers – Energy flow in the ecosystem – Ecological succession –

Food chains, food webs and ecological pyramids – Introduction, types, characteristic

features, structure and function of the (a) Forest ecosystem (b) Grassland ecosystem (c)

Desert ecosystem (d) Aquatic ecosystems (ponds, streams, lakes, rivers, oceans,

estuaries) – Introduction to Biodiversity – Definition: genetic, species and ecosystem

diversity – Biogeographical classification of India – Value of biodiversity: consumptive

use, productive use, social, ethical, aesthetic and option values – Biodiversity at global,

National and local levels – India as a mega-diversity nation – Hot-spots of biodiversity –

Threats to biodiversity: habitat loss, poaching of wildlife, man-wildlife conflicts –

Endangered and endemic species of India – Conservation of biodiversity: In-situ and Ex-

situ conservation of biodiversity.

UNIT III Environmental Pollution 8

Definition – Causes, effects and control measures of: (a) Air pollution (b) Water

pollution (c) Soil pollution (d) Marine pollution (e) Noise pollution (f) Thermal pollution

(g) Nuclear hazards – Soil waste Management: Causes, effects and control measures of

urban and industrial wastes – Role of an individual in prevention of pollution – Pollution

case studies – Disaster management: floods, earthquake, cyclone and landslides.

UNIT IV Social Issues and the Environment 7

From Unsustainable to Sustainable development – Urban problems related to energy –

Water conservation, rain water harvesting, watershed management – Resettlement and


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rehabilitation of people; its problems and concerns, case studies – Environmental ethics:

Issues and possible solutions – Climate change, global warming, acid rain, ozone layer

depletion, nuclear accidents and holocaust, case studies. – Wasteland reclamation –

Consumerism and waste products – Environment Production Act – Air (Prevention and

Control of Pollution) Act – Water (Prevention and control of Pollution) Act – Wildlife

Protection Act – Forest Conservation Act – Issues involved in enforcement of

environmental legislation – Public awareness

UNIT V Human Population and the Environment 6

Population growth, variation among nations – Population explosion – Family Welfare

Programme – Environment and human health – Human Rights – Value Education – HIV

/ AIDS – Women and Child Welfare – Role of Information Technology in Environment

and human health – Case studies.

Field Work

Visit to local area to document environmental assets- river / grassland / hill /

mountain, visit to local polluted site- urban / rural / industrial / agricultural, study of

common plants, insects, birds, study of simple ecosystems-pond, river, hill slopes etc.,

Total : 45Hrs

TEXT BOOKS:

1. Deswal.S and Deswal.A, “ A basic course in Environmental studies” Dhanpat Rai &

Co, 2006.

2. Gilbert M.Masters, Introduction to Environmental Engineering and Science, Pearson

Education Pvt., Ltd., Second Edition, ISBN 81-297-0277-0, 2004.

3. Miller T.G. Jr., Environmental Science – Sustaining the earth, Wadsworth Publishing

Co., 1993

REFERENCES:

1. Bharucha Erach, The Biodiversity of India, Mapin Publishing Pvt. Ltd., Ahmedabad

India., 2002

2. Trivedi R.K., Handbook of Environmental Laws, Rules, Guidelines, Compliances and

Standards, Vol. I and II, Enviro Media. 1996

3. Cunningham, W.P.Cooper, T.H.Gorhani, Environmental Encyclopedia, Jaico Publ.,

House, Mumbai, 2001.

4. Wager K.D., Environmental Management, W.B. Saunders Co., Philadelphia, USA,

1998.

5. Townsend C., Harper J and Michael Begon, “Essentials of Ecology”, Blackwell

science Publishing Co., 2003

6. Trivedi R.K and P.K.Goel “Introduction to Air pollution” Techno-science

Pubications. 2003

7. Yamuna R.T “Environmental Science” Inter Publications, 2008


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FTY106 FASHION PRODUCT DEVELOPMENT 3 0 0 3

OBJECTIVES:

• To impart knowledge on the steps involved in new product development.

• To understand the industry practices involved between designing and

production.

UNIT I 9

Fashion Industry Overview: Segments of the fashion industry – history and categories,

Classification of apparel products. Background to the world of fashion- influence of the

customer; different generations and motivations behind the changes.

UNIT II 9

Developing Fashion Concept: Design logic of apparel products , concept generation,

concept screening, Line concept – Synthesize current issues, describe fashion trends,

establish line direction, describe materials, identify group concepts and analyze current

line. Principles of Creative Fashion Ideas. Manipulation of Design Elements - silhouette,

proportion, pattern, garment details, accessories, texture, prints, colour, fabric.

UNIT III 9

Line Development and Presentation: Creative design - Develop designs, Create

prototype. Line adoption – Determining styles and balancing assortments. Technical

design – perfect styling and fit, engineer production patterns, samples, costing and grade

patterns. Presentation: Review for adoption, line review, line / style release.

UNIT IV 9

Analysis of Product Development: Product Positioning Strategy – Sizing and fit in

material selection – Final assembly and finishing – Garment Presentation.

UNIT V 9

Proto Development: Basic principles of Fabric Sourcing and Selection. Analysis of

functional and aesthetic characteristics of fabrics and trims - Co-ordinating with

availability, ability to enhance product aesthetics and functionality and cost. Visualization

and Communication design into manufacturability.

Total: 45Hrs

TEXT BOOKS:

1. Maurice J. Johnson and Evelyn C.Moore, “Apparel Product Development”, Second

Edition, Prentice Hall Upper saddle river, New Jersey, 2001.

2. Ruth E Glock and Grace I Kunz, “Apparel Manufacturing - Sewn Product Analysis”,

Prentice Hall, New Jersey, Fourth Edition, 2005.

3. Kathryn McKelvey and Janine Munslow, “Fashion Design: Process, Innovation and

Practice”, Blackwell Publishing, USA, 2005.

REFERENCES:

1. Donald R.Lehmann, Rusell S.Winer, “Product Management”, M.C.Graw Hill

International, 1996.

2. Mastudaira T and Suresh M.N., "Design Logic of Textile Products", Textile Progress,

Textile Institute, Manchester, 2007.


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FTY107 APPAREL PRODUCTION TECHNOLOGY 3 1 0 4

OBJECTIVES:

• To educate knowledge on the steps involved in garment production.

• To understand the techniques involved in finishing and packing of

garments.

UNIT I 12

Proto Samples & Spec Sheets Apparel production process- flow process. Analyzing

specification sheet- sample preparation and approval. Preparation of specification sheet

for children’s frock, ladies top, and men’s trousers- working diagrams, seam and stitch

specification and size chart. Preparation of proto pattern and developing production

pattern.

UNIT II 12

Raw Material Selection:: Factors affecting selection of fabric- precautions while

handling different fabrics while laying, marking, cutting and sewing. Sewing Thread

properties and seam performance –seam strength , seam elasticity, sewing problems.

Components- label, linings, Interlining, Elastic, shoulder pads, Seam binding and tape –

performance properties of the above components.

.

UNIT III 12

Pattern Layout Planning- Importance of grain in garments, principles and types of

layout, transferring patterns on fabrics. Listing garment components and planning the

construction process flow for children’s frock, ladies top, and men’s trousers

UNIT IV 12

Fitting- Standards of good fit - ease, line, grain, set, balance. Steps in assembling a

blouse and checking fit. Solving fitting problems in Top, skirt, trouser by pattern

alteration.

UNIT V 12

Apparel Finishing Process- Fusing and pressing- definition, process, requirements,

equipments and methods. Packing- Function, types of package forms, Types of packaging

materials, packaging methods, packing shipping equipments.


TEXT BOOKS:

1. Harold Carr and Barbara Latham, “The Technology of Clothing Manufacture”, Om

Book Service, 2002.

2. Jacob Solinger, “Apparel Production Handbook”, Reinhold Publications, 1998.

REFERENCES:

1. Laing R.M., Webster J, “Stitches and Seams”, The Textile Institute, Manchester,

2004.

2. Gerry Cooklin, “Garment Technology for Fashion Designers”, Blackwell Science

Ltd., 2001.


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3. Claire Shaeffer, “Sewing for Apparel Industry”, Prentice Hall, 2000

4. Mary Mathews, “Practical Clothing Construction, Part I and II”, Paperback Ed.,

Madras, 2000

5. Joseph. H and Amstrong, “Pattern Making for Fashion Design”, Pearson Education

Inc, 2005

6. Fan.J., Yu.W., and Hunter.L., “Clothing Appearance and Fit: Science and

Technology”, The Textile Institute, Manchester 2004.

7. Leila Aitken.,“Step By Step Dress Making Course“, BBC Books,2004.

8. Ruth E Glock and Grace I Kunz, “Apparel Manufacturing - Sewn Product Analysis”,

Prentice Hall, New Jersey, Fourth Edition, 2005.


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FTY108 APPAREL MACHINERY AND EQUIPMENT 3 1 0 4

OBJECTIVES:

• To impart knowledge on the machineries and equipments used for garment

production in the industry.

• To instruct on latest developments in the garment production machineries.

UNIT I Spreading Machine 12

Types of Fabric Packages. Types of Fabrics – One Way – Two Way Fabrics –Their effect

on spreading . Methods of Fabric spreading. Spreading equipments – Computerized

spreaders. Marker planning, Marker efficiency, Factors affecting marker efficiency.

Marker duplicating methods – Computer aided marker making.

UNIT II Cutting Machine 12

Introduction to cutting machines. Types and functions of cutting machines – straight

knife, round knife, band knife cutting machines. Notches, drills, die cutting machines.

Computerised cutting machines. Maintenance of cutting machines. Common defects in

cutting and their remedies. Latest Developments.

UNIT III Basic Components of Sewing Machine 12

Basic parts of sewing machine –primary and auxiliary parts. Types of needles – Parts of

needles and their function. Needle finishes. Bobbin case / Bobbin hook, Loopers – Loop

spreader – Threading fingers – Throat plate – Tongue chaining plates – Take up devices –

Tensioners – Feed dog – Pressure foot. Overview of Work Aids – guides, folders,

stackers, trimmers, ziggers. Latest Developments.

UNIT IV Single Needle Lockstitch Machine 12

Basic SNLS machine – Parts and their function – Adjustments of Stand height – pedal –

Needle Bar – Pressure foot – Feed dog – Differential feed ratio, Stitch length selection –

Feed timing – Needle and Bobbin Thread Tension – Stitch cycle timing diagram.

Maintenance of SNLS machine – Common defects and remedies. Latest Developments.

UNIT V Special Machines 12

Over lock machines - Types of Over lock machines. Threading diagram for over lock

machines. Stitch Cycle Diagram for over lock machines – Adjustment of Needle height,

Feed dog height, angle, Differential feed ratio, Position of upper and lower knives,

loopers. Maintenance of over lock machine. Defects and Remedies. Latest Developments

in Flat lock machines – Types. Threading diagram of flat lock machines – Stitch cycle

diagram. Adjustment of parts – Needle height, feed dog height, differential feed ratio,

loopers. Maintenance of flat lock machines. Defects and Remedies. Basic working of

special purpose sewing machines – Feed of Arm, Button Hole sewing, button sewing, Bar

tack, blind stitch machines.

L: 45 T: 15 Total=60Hrs

TEXT BOOKS:

1. Harold Carr andBarbara Latham, “The Technology of Clothing Manufacture”, Om

Book Service, 2002.

2. Shaeffer Claire, “Sewing for the Apparel Industry”, Prentice Hall, New Jersey, 2001.


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REFERENCES:

1. Singer, “Sewing Lingerie”, Cy DeCosse Incorporated, 1991.

2. Laing R.M. and Webster J, “Stitches and Seams”, The Textile Institute,

Manchester.

3. Technical Advisory Committee of AAMA, “ A New Look at Apparel

Mechanization”, 1978.

4. Jacob Solinger, “Apparel Production Handbook”, Reinhold Publications, 1998.


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FTY109 WOVEN FABRIC MANUFACTURE AND STRUCTURE 3 1 0 4

OBJECTIVES:

• To emulate information on the woven fabric production processes

• To educate on the structure and characteristics of various woven fabrics

UNIT I 12

Weaving Preparatory: Process Flow – Weaving Preparatory and Weaving. Objectives

and working principles of pirn winding, warping (beam and sectional) and sizing.

Package defects – cone/cheese. Yarn quality requirements for weaving.

UNIT II 12

Weaving: Objectives and working principles of conventional looms – tappet, dobby and

jacquard and their suitability for different types of weaves. Working principles of

shuttleless looms – rapier, projectile, air-jet and water jet. Fabric defects- types and

identification.

UNIT III 8

Basics of Woven Design: Elements of woven design – repeat, draft, peg-plan and

denting plan. Construction and characteristics of elementary weaves: Plain – warp rib-

weft rib – matt. Twills – types and any three derivatives. Satin – sateen, satinette.

Ordinary and Brighton honey comb- Rules for construction

UNIT IV 14

Woven Design: Crepe weaves- Methods of construction. Bedford cords -types, welts and

piques: wadded piques – Loose back and fast back welts and piques. Mock – leno –

types. Gauze and leno. Spot figuring – arrangement of figuring for dobby and jacquard.

Backed fabrics: Warp and weft back, warp pile – fast wire pile – terry weaves, Weft pile:

plain back – twill back velveteen –corduroy – Weft plush – Length, density and fatness of

pile.

UNIT V 14

Woven Fabric Design: Double cloth- Classification. Self stitched – face to back – back

to face – Combination face to back and back to face stitched double cloth. Wadded

double cloth – weft and warp Wadded double cloth. Center warp and Weft Stitched

double cloth. Thread interchange and cloth inter change double cloths. Basic Dobby,

Jacquard Design. Jacquard card cutting.


TEXT BOOKS:

1. Talukdar, Sriramulu and Ajgaonkar , “Weaving – Machines, Mechanisms,

Management” Mahajan Publishers Pvt.Ltd., –1998

2. Grosicki Z., “Watson’s Textile Design and Color: Elementary weaves and figure”

Blackwell Science, Commerce Place, 1998.


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REFERENCES:

1. Allan Ormerod, Walter S. Sondhelm “Weaving- Technology and Operations”. Textile

Institute publications

2. PR. Lord and Mohammed, “Weaving: Conversion of yarn to fabric”, M.H. Merrow

Publishing Co Ltd., UK, 1998.

3. Talukdar, “Introduction to winding and warping” Mahajan Publishers Pvt. Ltd., 1998

4. Talukdar, Wadekar and Ajgaonkar, “Sizing – Materials, methods and machines”

second edition, Mahajan publishers Pvt. Ltd, 1998.

5. Nisbet H., “Grammer of textile design”, Taraporevala Sons and Co Pvt. Ltd., 1994.

6. Murphy, W.S., “Textile weaving and design”, Abhishek Publications, 2000.


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MEC221 BASICS OF MECHANICAL ENGINEERING 3 1 0 4

OBJECTIVES:

• To understand the basic concepts of thermo dynamics

• To gain knowledge about renewable energy and its applications

• To know the working principles of internal combustion engines

• To study the different applications of drives

UNIT I 9

Laws of Thermodynamics:

First law of thermodynamics – statement and application, steady flow of energy equation,

Second law of thermodynamics.

Heating and Expansion of Gases

Expression for work done, internal energy, hyperbolic and polytropic processes. Free

expansion and throttling. Properties of Steam, Dryness fraction, latent heat, total heat of

wet steam.

UNIT II 9

Power Plants:

Classification of Power Plants, Steam, Diesel, nuclear and Hydro Power Plants. Types of

turbines, working of a single stage impulse and reaction turbine. Alternate Sources of

Energy: (Solar, Wind, Tidal, Geothermal, Ocean Thermal Energy Conversion

(OTEC).Wind/ Solar grid fed power plant, Solar /Water air heaters – Techno-economics

of power plants and energy sources.

UNIT III 9

Internal Combustion Engines:

Classification of IC engines, Main components of IC engines, working of a 4 stroke and 2

stroke petrol and diesel engine, differences between 4 stroke and 2 stroke engine.

Refrigeration and Air Conditioning

Refrigeration, principle of vapour compression and vapour absorbing systems. Air

conditioning, terminology and classifications. Humidification and Air conditioning.

UNIT IV 9

Manufacturing Processes:

Basic principles of Arc and Gas Welding, Soldering and Brazing, Extrusion, Forging,

Rolling, and Drawing Processes. Milling – Types, Operations and Equipments.

UNIT V 9

Power Transmission:

Types of drives, belt drives – flat and V belts, rope drives, chain drive, gear drives – spur,

helical, bevel and worm gears (Descriptive treatment only) – gear trains, simple and

compound.



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TEXT BOOKS:

1. Shanmugam G, Palanichamy M S, “Basic Civil and Mechanical Engineering”, Tata

McGraw Hill Company, New Delhi, 2nd Edition, 2000.

2. Venugopal.K. and Prabu Raja, “Basic Mechanical Engineering”, Anuradha

Publications, Chennai, 2007.

REFERENCES:

1. Sarkar B. K.,“Thermal Engineering” Tata McGraw Hill Company, New Delhi. 2000

2. Rao N., “Manufacturing Technology: Foundry, Forming and Welding”, Tata

McGraw Hill Co., New Delhi, Paperback Edition. 1998

3. James Brown, “Advanced Machining Technology Handbook”, McGraw Hill, New

York,1998.


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FTY404 FASHION DESIGN LABORATORY - II 0 0 3 1

LIST OF EXPERIMENTS

1. Introduction of tools and features in Adobe Photoshop

2. Development of motifs in Adobe Photoshop

3. Applying textures and effects on the developed motifs using Adobe Photoshop

4. Introduction of tools and features of Adobe Illustrator.

5. Development of motifs in Adobe Illustrator

6. Applying textures and effects on the developed motifs using Adobe Illustrator

7. Development of croquis in Adobe Illustrator and applying garments on them.

8. Rendering textures on garments.

9. Preparation of manual designs and digital designs for the following Accessories:

a. Hats

b. Ties and Bows

c. Belts

d. Foot wear

e. Hand bags

f. Jewellery

10. Thematic Sketching – a theme is incorporated in designing children’s, men’s and

women’s wear (one in each) and preparing manual and digital sketches.

Total: 45Hrs


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FTY405 APPAREL PRODUCTION LABORATORY- I 0 0 3 1

LIST OF EXPERIMENTS

1. Development of basic block patterns for children – top, skirt and bifurcated garment

2. Grading basic block patterns - top, skirt, and bifurcated garment.

3. Designing and developing pattern for Baby set- Jabla, panty, bib and bonnet.

4. Construction of Baby set- Jabla, panty, bib and bonnet

5. Designing and developing pattern for Baba suit

6. Construction of Baba suit

7. Designing and developing pattern for Rompers

8. Construction of Rompers

9. Designing and developing pattern for Baby frock

10. Construction of Baby frock

Total: 45Hrs


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FTY406 FABRIC ANALYSIS AND DESIGN LABORATORY 0 0 3 1

LIST OF EXPERIMENTS

Analysis of the following woven fabric designs:

1. Plain

2. Twill and huck a back

3. Satin and Sateen

4. Dobby design - Honey comb, Brighten honey comb

5. Jacquard design

6. Extra warp figuring

7. Extra weft figuring

8. Double cloth

9. Terry towels

10. Velvet and velveteen

Total: 45Hrs


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GHE 104 HUMAN EXCELLENCE – PROFESSIONAL VALUES 0 0 2 1

(Common to IV Semester all Branches)

1. Personality –Concepts, definitions -5 C’s and 5 E’s – Self development –

Leadership Traits –IQ,EQ,SQ.

2. Time management-Practice –Cause and Effect –Professional Ethics –Values.

3. Quality Enhancement – Empowerment of mind – Passion for Excellence –Auto

suggestions – Self control.

4. Simplified physical exercises.

5. Yoga Mudra.

6. Pachi Motasana.

7. Ustrasana.

8. Vakkarasana.

9. Salapasana.

10. Meditation

1

KUMARAGURU COLLEGE OF TECHNOLOGY COIMBATORE – 641 049

(An Autonomous Institution affiliated to Anna University of Technology Coimbatore) DEPARTMENT OF FASHION TECHNOLOGY

8th BOS MINUTES &

V – VIII SEMESTERS CURRICULUM AND SYLLABI

Choice Based Credit System (2009 Regulations)

B.Tech. - TEXTILE TECHNOLOGY (FASHION TECHNOLOGY)

2

KUMARAGURU COLLEGE OF TECHNOLOGY COIMBATORE – 641 049

(An Autonomous Institution affiliated to Anna University of Technology Coimbatore)

DEPARTMENT OF FASHION TECHNOLOGY Choice Based Credit System – Regulations -2009

B.Tech. - TEXTILE TECHNOLOGY (FASHION TECHNOLOGY)

SEMESTER – V

Code No. Course Title L T P C THEORY FTY110 Apparel Design and Development 3 1 0 4 FTY111 Knitted Fabric Manufacture and Structure 3 1 0 4 FTY112 Surface Ornamentation and Accessories 3 1 0 4 FTY113 Textile Chemical Processing 3 0 0 3 CSE141 Object Oriented Programming with C++ 2 0 2 3 FTY2-- Elective I 3 0 0 3 PRACTICAL FTY407 Apparel Production Laboratory - II 0 0 3 1 FTY408 Textile Chemical Processing Laboratory 0 0 3 1 FTY409 Apparel CAD Laboratory 0 0 3 1 GHE105 Human Excellence - Social Values 0 0 2 1 Total 17 3 13 25 TOTAL HOURS – 33 TOTAL CREDITS – 25 SEMESTER – VI

Code No. Course Title L T P C THEORY FTY114 Textile Testing and Apparel Quality Evaluation 3 0 0 3 FTY115 Apparel Production Planning and Control 3 1 0 4 FTY116 Clothing Science 3 0 0 3 FTY117 Apparel Merchandising and Marketing 3 0 0 3 GSS108 Operations Research 3 0 0 3 FTY2-- Elective II 3 0 0 3 PRACTICAL FTY410 Apparel Production Laboratory - III 0 0 3 1 FTY411 Textile Testing Laboratory 0 0 3 1 ENG401 Communication Skill Laboratory 0 0 3 1 GHE106 Human Excellence - National Values 0 0 2 1 Total 18 1 11 23 TOTAL HOURS – 30 TOTAL CREDITS – 23

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SEMESTER – VII

Code No. Course Title L T P C THEORY GSS104 Principles of Management and Total Quality

Management 3 0 0 3

FTY118 Industrial Engineering in Apparel Industry 3 0 0 3 FTY119 Costing and Management in Apparel Industry 3 1 0 4 FTY120 Quality Assurance in Apparel Production 3 0 0 3 FTY121 Apparel Finishing and Care 3 0 0 3 FTY2-- Elective III 3 0 0 3 PRACTICAL FTY412 Apparel Quality Evaluation Laboratory 0 0 3 1 FTY413 Mini Project * 0 0 - 1 FTY414 Apparel Machinery Laboratory 0 0 3 1 GHE107 Human Excellence - Global Values 0 0 2 1 Total 18 1 8 23 TOTAL HOURS – 27 TOTAL CREDITS – 23 * - Mini Project to be undertaken during the 6th semester summer vacation - Internal

evaluation only

SEMESTER VIII


THEORY FTY2-- Elective IV 3 0 0 3 FTY2-- Elective V 3 0 0 3 FTY2-- Elective VI 3 0 0 3 PRACTICAL FTY415 Project Work 0 0 18 6 Total 9 0 18 15 TOTAL HOURS – 27 TOTAL CREDITS – 15

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ELECTIVES

Course Title L T P C

THEORY ELECTIVE – I (Semester V)

FTY201 Fashion Photography 3 0 0 3 FTY202 Intimate Apparels 3 0 0 3 FTY203 Speciality yarns 3 0 0 3 FTY204 Fashion Forecasting 3 0 0 3

ELECTIVE – II (Semester VI) FTY205 Garment Trims and Accessories 3 0 0 3 FTY206 Fashion Retail Management 3 0 0 3 FTY207 Home Furnishings 3 0 0 3 FTY208 Computer Applications in Apparel Industry 3 0 0 3

ELECTIVE – III(Semester VII) FTY209 Apparel Export Management 3 0 0 3 FTY210 Creativity, Innovation and New Product

Development 3 0 0 3

FTY211 Functional Clothing 3 0 0 3 FTY212 Application of ERP and MIS in Apparel Industry 3 0 0 3

ELECTIVE – IV(Semester VIII) FTY213 Product Engineering and Plant Layout 3 0 0 3 FTY214 Fashion Promotion 3 0 0 3 FTY215 Bio Textiles 3 0 0 3 FTY216 Apparel and Textile Economics 3 0 0 3 FTY217 Visual Merchandising 3 0 0 3

ELECTIVE – V(Semester VIII) FTY218 Logistics and Supply Chain Management 3 0 0 3 FTY219 Energy Management in Apparel Industry 3 0 0 3 FTY220 Apparel Brand Management 3 0 0 3 FTY221 Social Compliance for Apparel Industry 3 0 0 3 FTY222 Apparel Coloration Technology 3 0 0 3

ELECTIVE – VI(Semester VIII) GSS101 Professional Ethics 3 0 0 3 GSS105 Entrepreneurship Development 3 0 0 3 GSS106 Governance in India 3 0 0 3 GSS107 Indian Economy 3 0 0 3

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FTY110 - APPAREL DESIGN AND DEVELOPMENT 3 1 0 4 OBJECTIVES • To gain knowledge on apparel design development and construction techniques • To learn methods of production sequence for children’s, women’s and men’s wear UNIT I 8+2 hrs Children’s Wear:Designing and pattern development- measurements- standard size charts for children’s wear. Quality requirements for selecting suitable fabric, seams and stitches for children wear. Step-by-step garment drafting process and construction sequence - baba suit, romper, baby frock. UNIT II 11+3 hrs Women’s Woven Wear: Designing and pattern development- measurements- standard size charts for women’s wear. Quality requirements for selecting suitable fabric, seams and stitches for women’s wear. Step-by-step garment drafting procedure and construction sequence – salwar kameez, cholie, skirts and blouses. UNIT III 9+3 hrs Women’s Knitwear: Designing and pattern development- measurements- standard size charts for women’s knit wear. Step-by-step garment drafting procedure and construction sequence - corsets, camisole, nighty and dresses. UNIT IV 10+5 hrs Men’s Woven Wear: Designing and pattern development- measurements- standard size charts for men’s wear. Quality requirements for selecting suitable fabric, seams and stitches for men’s wear. Step-by-step garment drafting procedure and construction sequence - Full sleeve shirt, trousers, jeans, cargos and single breasted coat UNIT V 7+2 hrs Men’s Knitwear: Designing and pattern development- measurements- standard size charts for men’s knit wear. Step-by-step garment drafting procedure and construction sequence – T-shirt, elastic shorts and briefs. (L= 45 hours, T = 15 hours)

TOTAL: 60 hrs TEXT BOOK: 1. Helen Joseph and Armstrong, “Pattern Making for Fashion Design”, Pearson Education, 2005. 2. Winifred Aldrich, “Metric Pattern Cutting for Men’s Wear”, Blackwell Science, 2000. 3. Winifred Aldrich, “Metric Pattern Cutting for Children’s Wear And Baby Wear”, 3rd Edition, Blackwell Science, 2001. REFERENCES: 1. Singer, “Sewing Pants That Fit”, Cowles Creative Publishing Inc., 1989. 2. Mc Kelvey Kathryn, “Fashion Source Book”, Blackwell Science, 1994 3. Gerry Cooklin, “Garment Technology For Fashion Designers”, Blackwell Science, 2000. 4. Claire Shaeffer, “Fabric Sewing Guide”, Chilton Book Company-Radnor, Pennsylvenia, 1997. 5. “The Complete Book of Sewing”, DK Publishers, London, 1996. 6. Mary Mathews, “Practical Clothing Construction” Part I and II, 2003. 7. Raul Jewel, “Encyclopedia of Dress Making”, APH Publishing Corporation, New Delhi, 2000.

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FTY111 KNITTED FABRIC MANUFACTURE AND STRUCTURE 3 1 0 4 OBJECTIVES

• To emulate information on the knitted fabric production processes • To educate on the structure and characteristics of various knitted fabrics

UNIT I 9+3 hrs Weft Knitting: Principle of weft knitting. Terms and definitions in weft knitting. Knitting elements-Needles and its types, sinker, cam. Knitting action of latch, beard and compound needles. Classifications of weft knitting machines. Parts and function of Plain, circular rib, circular inter lock and Purl knitting machine. UNIT II 9+3 hrs Weft Knit Structures: Classification of weft knit structures, Symbolic and diagrammatic representation of weft knit structures. Stitches and types – knit, tuck, float and unconventional stitches. Single jersey – properties, accordian, check and stripe effect. Double jersey – rib: Properties, derby rib and swiss rib, Milano Rib, Double pique and Pique poplin. UNIT III 9+3 hrs Advanced Weft Knit Structures. Interlock: Properties, eight lock structure, Single pique, Ponte-di-Roma and Ottaman rib. Purl: Properties cross purl and basket purl. Blister fabrics – single blister and double blister. Jacquard structures: Introduction, Rib Jacquard - striped backing and birds-eye backing UNIT IV 10+4 hrs Warp Knitting: Principles of warp knitting, basic warp knitting elements, knitting cycle- tricot, raschel machines. Warp Knit Structures: Basic stitches- piller, blind lap, tricot, inlay, satin and atlas stitches. Tricot structures - full tricot, lock knit and loop raised fabrics. Raschel structures- power nets, curtains and laces. UNIT V 8+2 hrs Latest developments in Weft and warp knitting machines. Application of knitted structures in technical textiles. Principles of seamless garment manufacture.

(L= 45 hours, T = 15 hours) TOTAL: 60 hrs

TEXT BOOKS: 1. Ajgaonkar D B, “Principles of Knitting”, Universal Publishing Corporation, 1998. 2. Anbumani N, “Knitting – Fundamentals, Machines, Structures and Developments”, New Age International Publishers, 2007. 3. David Spencer., “Knitting Technology”, Pergamon Press, Oxford 2005. REFERENCES: 1.Pradip V Mehta, “Introduction to Quality Control for the Apparel Industry”, ASQC Quality Press, 1992. 2.Charles Richman, “Guide to manufacture of Sweater, Knit shirts and Swim wear”, National Knitted Outer Wear Association, New York, 1992.

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FTY 112 SURFACE ORNAMENTATION AND ACCESSORIES 3 1 0 4 OBJECTIVES • To gain knowledge types and working methods of hand, machine and computerized embroidery. • To impart knowledge on types and production methods of fashion accessories. UNIT I 7+2 hrs Introduction: Embroidery – meaning and importance- Types and Classification. Study and compatibility of needles, thread, frames, backing materials and fabrics for embroidery. Attachments to sewing machines for embroidery. UNIT II 10+4 hrs Hand Embroidery: Hand embroidery stitches - classification - running, couching, button hole, satin, long and short, wheat, chain, stem, herringbone, cross stitch, knotted stitches, fish bone. Indian traditional embroideries – Phulkari, Kasuti, Kashida, Kutch work, Chikkankari, Kantha, Tribal embroidery stitches, designs, colors and materials used. UNIT III 10+4 hrs Machine Embroideries And Surface Ornamentation: Machine Embroideries and Surface ornamentation – types - eyelet work, cutwork , lace work, drawn thread work, drawn fabric work, patch work, mirror work, applique, shaded embroidery, shadow work, badala work, bead and sequins work and bobbin thread embroidery. UNIT IV 10+3 hrs Computerized Embroidery: Computerized Embroidery Machine – Multi Head Embroidery Machine- Functions and Features. Embroidery Production Process – designing, punching and digitizing, special effects, networking. Selection of thread, color and stitches for computer controlled embroidery machines. Study of frames. Special attachments. Quality control aspects. UNIT V 8+2 hrs Fashion Accessories: Fashion Accessories – footwear, handbags, belts, gloves, hats, scarves, jewellery - designing, selection of materials, product development and production .

(L= 45 hours, T = 15 hours) TOTAL: 60 hrs

TEXT BOOKS: 1. Parul Bhatnagar, “Traditional Indian Costumes and Textiles”, Abhishek Publications, Chandigarh, 2004. 2. Jay Diamond and Ellen Diamond, “Fashion, Apparel, Accessories, Home Furnishings” Pearson Prentice Hall, New Jersey, 2007. 3. Usha Srikant, “ Designs for a lifetime”, Samata Enterprises, Mumbai, 2002. REFERENCES: 1. Shailaja D. Naik, “Traditional Embroideries of India”, A.P.H Publishing Corporation, New Delhi, 1996. 2. Gini Stephens Frings, “Fashion - From Concept to Consumer”, Prentice Hall, New Jersey,1999. 3. Sheila Paine, “Embroidered Textiles”, Thames and Hudson Ltd., 1990. 4. Gail Lawther, “Inspirational Ideas for Embroidery on Clothes and Accessories”, Search Press Ltd., 1993. 5. Training Manual for Embroidery Machine Operators, TAJIMA, UIET, Tirupur, 2003. 6. Training Manual for Embroidery Machines, Barudan, Tirupur, 2002.

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FTY113 TEXTILE CHEMICAL PROCESSING 3 0 0 3 OBJECTIVES

• To teach the students the various bleaching, dyeing, printing and finishing technologies for the various fabrics and garments.

• To educate the students on Eco friendly chemical processing.

UNIT –I 9 hrs Pretreatments: Introduction to wet processing. Process sequence in wet processing for wovens and knits. Singeing – electric and gas singeing. Desizing – chemical and enzymatic. Scouring – alkaline and enzymatic. Bleaching – hypochlorite and peroxide bleaching, optical whitening. Mercerizing – tension, tensionless and tubular mercerization. UNIT-II 12 hrs Dyeing: Introduction- Dyeing equipments – jigger, winch, soft flow, jet dyeing machine, j-box, padding - mangles, package dyeing machine and garment dyeing machine. RFT dyeing. Classification of dyes. Dyeing of cotton fabrics using direct, reactive, vat and sulphur dyes. Dyeing of polyester (carrier, HTHP and thermo sol) and cellulosic blends (one bath and two bath process). Fastness properties of dyes. UNIT-III 7 hrs Printing:Print paste - ingredients and preparation. Styles of printing -direct style of printing on cotton using pigments and reactive dyes, discharge style of printing cotton using pigments on reactive ground, resist style of printing cotton on reactive ground, tie and dye, batik. After treatments of printed goods. UNIT-IV 7 hrs Methods of Printing :Block, Stencil, Roller, Rotary, Flat bed, Transfer and Chest printing. Screen Making. Special prints – kadi, rubber, foam, glitter, leather, foil, flock and pearl. Latest developments in printing. UNIT-V 10 hrs Quality Assurance and Eco – Friendly Wet Processing: Need for Quality control – areas of Quality control in wet processing (Water, PH, Temperature, MLR, Time) – computer color matching. Importance of Eco – friendly wet processing, List of banned dyes and chemicals, German ban, Eco-Labels, Eco- Testing. Textile effluent treatment.

TOTAL: 45 hrs TEXT BOOKS: 1. V.A. Shenai, “Technology of Dyeing –Volume VI”, Sevak Publications, Bombay, 2000. 2. John Shore, “Cellulosics Dyeing”, Society of Dyers and Colourists, Mumbai, 2005 3. Lesile W.C. Miles, “Textile printing”, Society of Dyers and Colourists, Mumbai,2003 REFERENCES: 1. Datye K.V.and Vaidya A.A., “Chemical Processing of Synthetic Fibres and Blends”, John Wiley and Sons, Newyork, 1984. 2.“Eco – Friendly Textiles - The German Ban”, NITRA Publishing Ltd., 1996.

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CSE141 OBJECT ORIENTED PROGRAMMING WITH C++ 2 0 2 3 OBJECTIVES

• Understand the concepts of Object Oriented Programming. • Write simple applications using C++.

UNIT I 8 hrs Features of procedure oriented programming – Object oriented programming paradigm – Basic concepts of object oriented programming – Benefits of OOP – Object oriented languages – Applications of OOP – What is C++? – A simple C++ program – Structure of C++ program – Creating the source file. UNIT II 10 hrs Basic data types – User defined and derived data types– Operators – Manipulators – Expressions and their types – Control structures - Functions in C++ – Main function – Function prototyping – Call by reference – Return by reference – Default arguments – Constant arguments – Inline function – Function overloading. UNIT III 9 hrs Classes and Objects – C++ program with class- Static data members and functions- Array of objects – Object as function arguments - Friendly Functions – Returning objects – Constant Member functions. UNIT IV 9 hrs Constructors – Parameterized Constructors – Multiple Constructors – Constructors with default arguments - Copy constructors – Dynamic constructors - Constant objects - Destructors.- Introduction to operator overloading – Overloading unary operators – Overloading binary operators – Rules for overloading operators UNIT V 9 hrs Inheritance – Single, Multiple, Multilevel and Hybrid inheritance – Virtual base classes – Abstract Classes - Virtual functions – Pure virtual functions.

TOTAL : 45 hrs

TEXT BOOKS :

1. E. Balagurusamy, “Object Oriented Programming with C++”, TMH, 2003. REFERENCE BOOKS:

1. Robert Lafore, “Object Oriented Programming in C++”, Galgotia, 1999.

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FTY 407 APPAREL PRODUCTION LABORATORY - II 0 0 3 1 LIST OF EXPERIMENTS 1. Designing and Developing Pattern for Men’s Shorts 2. Construction of Men’s Shorts 3. Designing and Developing Pattern for Men’s Formal Shirt 4. Marker Planning for shirt for any one type of special fabric 5. Construction of Men’s Formal Shirt 6. Grading Shirt Patterns 7. Designing and Developing Pattern for Men’s Formal Trousers 8. Construction of Men’s Formal Trousers 9. Grading Trouser patterns 10. Designing and Developing Pattern for Knitted Basic T-shirt 11. Construction of Knitted Basic T-shirt 12. Marker Planning of Basic T-shirt

TOTAL: 45 hrs

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FTY 408 TEXTILE CHEMICAL PROCESSING LABORATORY 0 0 3 1 LIST OF EXPERIMENTS 1. Bleaching of cotton using Hydrogen peroxide.

2. Identification of dyes.

3. Dyeing of cotton with direct dyes on woven/ knitted fabric.

4. Dyeing of cotton with Reactive dyes on woven/ knitted fabric.

5. Dyeing of cotton with Vat dyes on woven/ knitted fabric.

6. Dyeing of protein fibres with Acid dyes.

7. Stripping and re-dyeing of cotton fabric.

8. Dyeing of Polyester using carrier.

9. Direct style of printing and Transfer printing on cotton fabrics.

10. Discharge style- printing on cotton.

11. Resist style-printing on cotton.

12. Determination of colourfastness of dyed fabrics using launderometer.

TOTAL: 45 hrs

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FTY 409 APPAREL CAD LABORATORY 0 0 3 1 LIST OF EXPERIMENTS 1. Design a Children’s wear including accessories.

2. Design a ladies party wear including accessories

3. Design a Men’s Formal wear including accessories

4. Develop design, pattern, grading for children’s wear – Baby frock using a one way fabric of 38”

and 42” width.

5. Develop design, pattern, grading for children’s wear – Rompers using a two-way fabric of 38” and

42” width.

6. Develop design, pattern, and grading marker plan for a Ladies top.

7. Develop marker plan for a Ladies top with fabric of 44” and 52” width. Calculate the marker

efficiency and develop a lay lot plan.

8. Developing design, pattern and marker plan for a Men’s Basic T shirt of 48” fabric width.

Calculate the marker efficiency. Develop a lay lot plan

9. Develop design, pattern, and grading for Men’s Formal Trouser using fabric of 60” and 72” width.

Calculate the marker efficiency.

10. Develop design, pattern, grading and marker plan for a Ladies Skirt using plaid fabric of 38” and

60” width. Calculate the marker efficiency. Develop a lay lot plan

11. Develop design, pattern, and grading for a Men’s Full arm shirt using fabric of 52” and 60”

width. Calculate the marker efficiency. Develop a lay lot plan

12. Develop design, pattern, grading and marker plan for Men’s Full arm shirt using fabric of 60”

and 72” width. Calculate the marker efficiency.

TOTAL: 45 hrs

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GHE105 HUMAN EXCELLENCE - SOCIAL VALUES 0 0 2 1

1. Evolution of man – Man in society.

2. Duties and Responsibilities, Duty to self, family, society and the world.

3. Disparity among human beings.

4. Social welfare – Need for social welfare – Pure mind for pure society.

5. Politics and society – Education and society-Case study and live examples.

6. Impact of science in society - social development and society upliftments by science.

7. Economics and society – role of economics in creating a modern society.

8. Central message of Religions.

9. Yogasanas-I

10. Meditation-II.[Thuriatheetham]

TOTAL: 15 hrs

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FTY114 TEXTILE TESTING AND APPAREL QUALITY EVALUATION 3 0 0 3 OBJECTIVES:

• To teach the students about the principles and working of textile testing instruments • To teach the testing methods for apparel quality

UNIT I 9 hrs Sampling Techniques: Definition – random, biased sampling. Sampling techniques for fibre, yarn and fabric. Definition of Moisture Regain and Moisture Content. Standard conditions for testing samples. Yarn Number: Yarn Numbering System – Instruments used for count determination –quadrant balance – beesley’s balance- electronic balance. Relationship between yarn count and yarn diameter. UNIT II 9 hrs Yarn Testing: Twist - direction of twist – Twist multiplier. Measurement of Single and Folded yarn twist. Yarn Hairiness – Causes for yarn hairiness. Testing methods – optical, singeing and Hairiness tester. Classification of variation – Methods of measuring evenness – Black board, ASTM standards, Cutting and weighing methods. Electronic capacitance – evenness tester – Uster standards. Yarn faults – classification – Classimat. Measurement of yarn strength – Single yarn strength tester – Tensorapid, Tensojet - lea strength tester. Count Strength Product (CSP), its significance. UNIT III 9 hrs Fabric Testing - Mechanical Properties: Crimp – Influence of crimp on fabric properties – Shirley crimp tester Fabric tensile strength tester – raveled strip method – Grab methods. Fabric tear strength tester – Ballistic strength tester – Hydraulic bursting strength tester. Fabric Abrasion Resistance - Martindale abrasion tester. Fabric Pilling - I.C.I Pillbox tester. UNIT IV 9 hrs Fabric Testing - Handle Properties: Fabric Drape - Drape meter. Fabric Stiffness - Shirley Stiffness tester, Fabric crease resistance and crease recovery measurements. Fabric Permeability - Fabric air permeability tester and water permeability tester. UNIT V 9 hrs Apparel Quality Evaluation: Seam strength testing – Seam slippage testing. Peel bond strength testing- Button, Zipper strength testing. Colour fastness testing – Washing fastness- Rubbing fastness – Light fastness. Apparel dimensional stability testing – spirality, skewing in apparel

TOTAL: 45 hrs

TEXT BOOKS: 1. Grover E G and Hamby D. S, “Hand Book of Textile Testing and Quality Control”, Wiley Eastern Pvt. Ltd., New Delhi, 2000. 2. Sundaram V, “Hand book of Textile Testing”, CTRL Publication, Bombay, 2003. 3. Booth, J.E., “Principles of Textile Testing”, CBS Publishers and Distributors, 2002. REFERENCES: 1. BSI,“BSI Hand books”, British Standard Institution, Manchester, 2007 2. BIS,“BIS Hand Books”, Bureau of Indian standards, Delhi, 2007.

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FTY 115 APPAREL PRODUCTION PLANNING AND CONTROL 3 1 0 4 OBJECTIVES:

• To acquire knowledge on objectives and importance of production planning • To acquire knowledge on plant layout types and evaluating plant layout • To acquire knowledge of different apparel manufacturing systems and process analysis • To acquire knowledge on material management concepts and control forms • To acquire knowledge on production scheduling, capacity planning and line balancing

UNIT I 9+2 hrs Production Planning and Control: Definition, Objectives of production control, relationship of production control to the functional areas of a manufacturing organization. Pre planning: Pre-production functions, Importance of Preproduction function. Lead Time, Product development - steps from prototype to production sample. Product data management, Interpretation of specification sheet. UNIT II 8+2 hrs Plant Layout: Plant site location. Plant Layout - definition – types of production layout, criteria for

evaluation of a plant layout. Basic production line layout. Determining minimum space requirement,

Government regulations for plant layouts.

UNIT III 8+3 hrs Apparel Manufacturing Systems: Section Production systems - whole garment production system, Progressive bundle system, Unit production system, Multiple flow system, modular manufacturing systems – their advantages and disadvantages. Guide lines for choosing suitable production system. Flow Process Grids and Charts – Flow process grid construction, flow process grids for production control. Cut Production Analysis: Cut order planning – types of spreads, spreading methods, marker utilization, economic cut quantities. UNIT IV 10+5 hrs Material Management: Manufacturing Resources planning (MRP), Just in Time Production system (JIT), Optimized Production Technology (OPT), Inventory Modeling – Economic order quantity (EOQ) Control Forms: Functions of cutting order, cutting ticket, bundle control sheet. Principles of Scheduling: scheduling charts – GANTT chart, backlog graph. Network representation – CPM and PERT UNIT V 10+3 hrs Plant Loading and Capacity Planning: Determination of machine requirements for a new factory -calculation of labour requirements, application of line balancing techniques – balance control.. Line Balancing: determination and allocation of man power and machines for balanced production in existing plant for a given target. (L= 45 hours, T = 15 hours)

TOTAL: 60 hrs

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TEXT BOOKS : 1. Garg R.K, and Sharma V., “Production Planning and Control Management”, Dhanpat Rai Publishing, 2003. 2. Jacob Solinger, “Apparel Production Handbook”, Reinhold Publications, 1998. 3.Rajesh Bheda “ Managing Productivity of Apparel Industry” CBI publishers and distributors, New Delhi 2002. 4. David J Tyler, “ Material Management in Clothing Production”, Prentice Hall, New jersey, 1991. REFERENCES: 1. Carr Harold, Latham Barbara, “The Technology of Clothing Manufacture”, Om Book Service, 2004. 2. Bracken Bury, “Knitted Clothing Technology”, Om Books Service, 1999. 3. Gerry Cooklin, “Introduction to Clothing Manufacture”, Blackwell Science Ltd., 2005. 4. Gerry Cooklin, “Garment Technology for Fashion Designers”, Om Books service, 1997. 5. Churter, A.J., “Introduction to Clothing Production Management”, Oseney Mead, 2001.

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FTY 116 CLOTHING SCIENCE 3 0 0 3 OBJECTIVES:

• To impart specialized knowledge of the physical science of clothing • To teach the students the influence of textile properties on comfort.

UNIT: I 8 hrs Aesthetics and Appearance: Fibre structure, selection of fibre, yarn structure and fabric construction; their effect on fabric appearance. Study of properties such as pilling, fastness, lusture and Shade variation and measurement UNIT: II 9 hrs Serviceability: Study of Snagging, abrasion resistance, tearing strength, tensile strength, bursting strength, corrosive strength, crock resistance, fusing, Static electricity, Seam strength and slippage with respect to fiber properties, yarn structure and fabric deign. UNIT: III 8 hrs Dimensional Stability: Study of Hygral expansion, relaxation shrinkage, swelling shrinkage, felting shrinkage, methods of measuring dimensional stability, dimensional stability to dry cleaning and dry heat with respect to fibre properties and chemical treatments that decide the fabric properties.. UNIT: IV 9 hrs Fabric Handle: Effect of fibre properties, yarn structure and fabric construction on the fabric properties such as bending, drape, crease recovery, fabric thickness, shear, bias extension, fabric friction, objective evaluation of fabric hand by KES and FAST, and tailorability. UNIT: V 11 hrs Comfort: Effect of fibre properties, yarn structure ,fabric design, fabric construction and treatments on the fabric properties such as Thermal conductivity and warmth, air permeability, breathability, moisture transport – wetting and wicking; clothing comfort – thermal comfort, heat and moisture transfer, moisture sensations; tactile comfort – pressure sensations.

TOTAL: 45 hrs TEXT BOOKS:

1. Y. Li and D.X.Q Dai, Bio mechanical Engineering of Textile and Clothing, Wood Head Publishing Ltd. England

2. Y. Li and A.S.W Wong, Clothing Bio sensory Engineering, Wood Head Publishing Ltd. England

3. K.Slater, Comfort Properties of Textiles, Textile Progress, JTI, 1977. 4. Saville B.P, “Physical Testing of Textiles”, The Textile Institute, Wood head Publishing Ltd, Cambridge, 1999 5. Li.Y., “The Science of Clothing Comfort”, Textile Progres, Textile Institute, Manchester, 2001. 6. Miller.E “Textiles: Propeties and Behaviour in Clothing Use”. Textile Institute, 1998

REFERENCES:

1. Ed.Postle R., Kawabata.S and Niwa M., “Objective Evaluation of Fabrics”, Textile Machinery Society, Japan, Osaka, 1983.

2. Ukponmwan.J.O, “The Thermal-Insulation Properties”, Textile Institute, 1998. 3. Clothing Appearance and Fit : Science and Technology:V.Fan .W.Yu and L.Hunter – Wood

head Publishing Ltd.

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FTY 117 APPAREL MERCHANDISING AND MARKETING 3 0 0 3 OBJECTIVES:

• To acquire knowledge on types of apparel industries and business concepts adopted. • To acquire knowledge on marketing objectives, types of markets and strategies. • To acquire knowledge on fundamentals of merchandising, functions of merchandiser • To gain knowledge on sourcing principles and methods • To gain knowledge on documentation followed by merchandiser.

UNIT I 7 hrs Organization of the Apparel Business: Introduction to apparel industry. Types of apparel exporters. Business concepts applied to the apparel industry. UNIT II 9 hrs Marketing: Functional organization of an apparel firm. Responsibilities of a marketing division - marketing objectives and Strategies - Marketing research - Types of markets: Retails and wholesale strategies for merchandise distribution- retailers - sourcing flows and practices. Marketing plan. Labeling and licensing. UNIT III 10 hrs Merchandising: Definition of merchandising. Classification of exporters - Manufacturer exporter, Merchant exporter, Job worker(CM/CMT), Functions of merchandising division - Role and responsibilities of a merchandiser - different types of buyers. Communications with the buyers - awareness of current market trends – product development - line planning and line presentation. UNIT IV 9 hrs Sourcing: Need for sourcing - sourcing materials - manufacturing resources planning - principles of MRP. Sourcing strategies - Overseas sourcing. Supply chain and demand chain analysis - Materials management for quick response - JIT technology UNIT V 10 hrs Documentation: Order confirmation, various types of export documents, Pre-shipment Post -shipment documentation, Terms of sale, payment, shipment etc. Export incentives: Duty drawback, DEPB, I / E license - exchange control regulation - foreign exchange regulation acts - export management risk - export finance. TOTAL:45 hrs

TEXT BOOKS: 1. Philip Kotler, Kelvin Lane Keller, Abraham Koshy and Mithileshwar Jha, “Marketing Management a South Asian Perspective”, Pearson Education India, 2006. 2. Evelyn C Moore, “Math for Merchandising”, Wiley Eastern Inc., 2002. 3. John Donnellan “Merchandise Buying and Management”, Farichild Publications, inc., New York, 2002 REFERENCES: 1. Ruth E Glock and Grace I Kunz, “Apparel Manufacturing”, Prentice Hall, New Jersey, Fourth Edition, 2005. 2. “The Textile Industry: Winning strategies for the New Millennium”, Volume II, Textile Institute., 1999.

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GSS108 OPERATIONS RESEARCH 3 0 0 3 OBJECTIVES:

On completion of the course the students are expected

• To be aware of optimization of resources. • To understand and apply operations research techniques to industrial operations. • To know how to formulate and solve Linear Programming Problems using various

techniques. • To solve transportation and assignment problems. • To analyze CPM and PERT networks and evaluate projects. • To solve replacement problems of different types. • To solve sequencing problem. • To know various queueing models and to solve queue problems.

UNIT I 9 hrs Linear Programming Problem: The phases of OR study – formation of an L.P model – graphical solution – simplex algorithm – artificial variable technique: Big M Method, Two-phase method. UNIT II 9 hrs Transportation and Assignment Problem: Initial basic solution by North West corner method – least cost method – Vogels approximation method – optimality test – MODI method. Unbalanced transportation problem. Assignment problem – Hungarian method – unbalanced assignment problem. UNIT III 9 hrs Network Models: Shortest route – minimal spanning tree – maximum flow models – Project network: CPM and PERT network. UNIT IV 9 hrs Replacement and Sequencing Models: Replacement of items that deteriorate with time – value of money changing with time – Not changing with time – optimum replacement policy – individual and group replacement .Sequencing problem: models with n jobs with 2 machines – problem with n jobs with 3 machines. UNIT V 9 hrs Queuing Theory: Queuing models – queuing systems and structures – notation – single server and multi server models – Poisson input – exponential service – constant rate service. TOTAL: 45 hrs TEXT BOOK: 1. Taha, H.A,” Operations Research”(2007), Prentice Hall of India, New Delhi. REFERENCES: 1. Gupta, P.K., and Hira, D.S. ”Operations Research “(2008) S.Chand and Co., New Delhi. 2. Gupta, P.K., and Hira, D.S.,” Problems in Operations Research “(2008) S.Chand and Co., New Delhi. 3. Panneerselvam, Operation Research “(2007) Prentice Hall of India, New Delhi. 4. Harvey M.Wagner,”Principles of Operations Research “(2007), Prentice Hall of India, New Delhi.,

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FTY 410 APPAREL PRODUCTION LABORATORY- III 0 0 3 1 LIST OF EXPERIMENTS 1. Development of Basic Block for Ladies wear –

top, skirt and bifurcated garment and grading any one block

2. Designing and Developing Pattern for Overall/ Workwear

3. Construction of Overall/ Workwear

4. Designing and Developing Pattern for Ladies Salwar and Kameez

5. Construction of Ladies Salwar and Kameez

6. Designing and Developing Pattern for Ladies Skirt and Top

7. Construction of Ladies Skirt and Top

8. Designing and Developing Pattern for Choli

9. Construction of Choli

10. Designing and Developing Pattern for Brassier and Panties

11. Construction of Brassier and Panties

12. Marker Planning for any one garment

TOTAL: 45 hrs

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FTY411- TEXTILE TESTING LABORATORY 0 0 3 1 LIST OF EXPERIMENTS 1. Determination of Yarn Count and Lea Strength

2. Determination of Single / Ply Yarn Twist

3. Determination of Yarn Appearance Grade

4. Determination of Fabric Abrasion Resistance

5. Determination of Fabric Tensile Strength

6. Determination of Color Fastness to Rubbing - Crock meter

7. Determination of Fabric Stiffness and Crease Recovery Angle

8. Determination of Fabric bursting strength and fabric Drape.

9. Determination of fabric pilling.

10.Determination of fabric tear strength.

11. Determination of colorfastness to perspiration.

12. Determination of shrinkage of woven and knitted fabrics.

TOTAL: 45 hrs

22

ENG 401 COMMUNICATION SKILLS LABORATORY 0 0 3 1 (Common to all branches of Engineering and Technology)

OBJECTIVES:

• To equip students of engineering and technology with effective speaking and listening skills

in English and

• To help them develop their soft skills and people skills, which will make the transition from college to workplace smoother and help them to excel in their jobs and to enhance

students’ performance at Placement Interviews, Group discussions and other recruitment

exercises.

I English Language Lab 1. Listening Comprehension Listening – Listening and sequencing of sentences – Filling in the Blanks – Listening and answering the question 2. Reading Comprehension and Vocabulary Filling in the blanks – Cloze Exercises –Vocabulary building – Reading and Answering questions 3. Speaking: Intonation – Ear Training – Correct Pronunciation – Sound Recognition exercises – Common Errors in English 4. Conversations: Face to face Conversation – Telephone conversation - Role play Activities (Students take on roles and engage in conversation) II Career Lab 1. Resume / Report Preparation / Letter Writing Structuring the resume / report – Letter writing / E-mail communication – Samples 2. Presentation Skills Elements of an effective presentation – Structure of a presentation –Presentation Tools – Voice Modulation – Audience analysis – Body Language 3. Soft Skills Time Management – Articulateness – Assertiveness – Innovation and Creativity – Stress Management & Poise 4. Group Discussion Why is GD part of the selection process? – Structure of a GD- Moderator-led and Other GDs – Strategies in GD – Team work – Body Language –Mock GD 5. Interview Skills Kinds of Interviews –Required Key Skills – Corporate culture- Mock Interviews

23

References:

Books: 1. Meenakshi Raman and Sangeetha Sharma, Technical Communication-

Principles and Practice, Oxford University Press. New Delhi (2004)

2. Barker. A – Improve your communication skills – Kogan page India Pvt Ltd.

New Delhi (2006)

3. Adrian Doff and Christopher Jones- Language in Use (Upper- Intermediate).

Cambridge University Press. First South Asian Edition (2004)

4. John Seely, the Oxford Guide to writing and speaking, Oxford University

Press, New Delhi (2004)

CD’s: 1. Train2sucess series 1.Telephone Skills.2. Interviewing Skills 3. Negotiation

Skills by Zenith Global Consultants Ltd. Mumbai

2. BEC Series

3. Look Ahead by Cambridge University Press

24

GHE106 HUMAN EXCELLENCE - NATIONAL VALUES 0 0 2 1

1. Citizenship- its significance-Enlightened citizenship. 2. Emerging India-it’s glory today- Global perspective-other view about India.

3. Indian culture and it’s greatness.

4. India and Peace.

5. India and Spirituality- Great spiritual leaders.

6. India’s message to the world – it’s role in global peace.

7. Service and sacrifice-Unity in diversity – case studies-live examples.

8. National values identification and practice.

9. Yogasanas -II.

10. Meditation III.[Nithyanandam and Nine Centre Meditation]

TOTAL: 15 hrs

25

GSS 104- PRINCIPLES OF MANAGEMENT AND TOTAL QUALITY MANAGEMENT 3 0 0 3 OBJECTIVES

• To understand the managerial functions like planning, organizing, staffing, leading and

controlling

• To understand TQM concepts and tools

UNIT I 9 hrs

Planning: Contributions of F.W. Taylor and Henri Fayol, Nature and Purpose of planning – Steps involved in Planning – Types of plans – Plans at Individual, Department and Organization level – Managing by Objectives. UNIT II 9 hrs

Organizing: Nature and Purpose of Organizing – Types of Business Organization – Organization Chart – Structure and Process – Strategies of Departmentation – Line and Staff authority – Benefits and Limitations. Centralization Vs De-centtralization and Delegation of Authority. Staffing – Manpower Planning – Recruitment – Selection – Placement – Induction. UNIT III 9 hrs

Direction and Controling: Nature and Purpose – Manager Vs. Leader – Motivation – theories and techniques of motivation. Leadership – styles and theories of leadership. Communication – Process – Types – barriers – Improving effectiveness in Communication. Con trolling – Nature – Significance – Tools and Techniques UNIT IV 9 hrs

Total Quality Management Concepts: Definition of quality, Dimensions of Quality, Quality Costs, Quality Statements, Contributions of Deming, Juran and Crosby, ISO 9000:2008 elements UNIT V 9 hrs TQM Tools: Benchmarking , Quality Function Deployment (QFD), Taguchi Quality Loss Function, Total Productive Maintenance (TPM), FMEA, 5S, Kaizen, The seven tools of quality, New seven management tools.

TOTAL: 45 hrs

TEXT BOOKS : 1. Harold Koontz and Keinz Weihrich, “Essentials of Management” – An International

Perspective”, 8th Edition, Tata McGraw-Hill, 2009.

2. Dale H. Besterfiled, “Total Quality Management”, (Indian Reprint 2004) Pearson Education, Inc.

26

REFERENCES :

1. Tripathy PC and Reddy PN, “Principles of Management”, Tata McGraw-Hill, 4th Edition, 2008 2. Dinkar Pagarem “Principles of Management”, Sultan Chand and Sons, 2000 3. Kanagasapapathi. P (2008) Indian Models of Economy, Business and Management, Prentice Hall

of India, New Delhi, ISBN: 978-81-203-3423-6. 4. G.K. Vijayaraghavan and M. Sivakumar, “Principles of Management”, Lakshmi Publications, 5th

Edition, 2009. 5. Charles W.L. Hill and Steven L McShane, “Principles of Management, Tata Mc Graw – Hill,

2009. 6. James R. Evans and William M. Lidsay, “The Management and Control of Quality”, (2008),

South-Western (Thomson Learning). 7 Feighenbaum, A.V., “Total Quality Control”, (1993), McGraw Hill, New York. 8. Oakland J.S., “Total Quality Management”, (2004) Butterworth – Hcinemann Ltd., Oxford. 9. Narayana V. and Sreenivasan N.S. “Quality Management – Concepts and Tasks”, (2007) New

Age International, New Delhi. 10. Zeiri, “Total Quality Management for Engineers”, (2000), Wood Head Publishers.

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FTY 118 INDUSTRIAL ENGINEERING IN APPAREL INDUSTRY 3 0 0 3 OBJECTIVES:

• To impart knowledge on basics of industrial engineering and industrial engineering techniques

• To understand the fundamentals of productivity, factors influencing productivity and measures for improving productivity.

• To understand the principles and methodology of work study – method study and work measurement

• To acquire knowledge on application of work study in apparel manufacture to improve process efficiency

UNIT I 9 hrs Introduction : Scope of industrial engineering, role of industrial engineers concepts of industrial engineering techniques. Productivity: Definition - Productivity, Productivity and standard of living, Reduction of work content due to the product and process, Reduction of ineffective time due to the management, due to the worker. Causes for low productivity in apparel industry - work content and time. UNIT II 8 hrs Work Study: Definition, Purpose, Basic procedure and techniques of work-study. Work environment – Lighting, Ventilation, Climatic condition on productivity. Temperature control, humidity control, noise control measures. Safety and ergonomics on work station and work environment Material Handling – Objectives, Classification and characteristics of material handling equipments, Specialized material handling equipments. UNIT III 9 hrs Method Study: Definition, Objectives, Procedure, Process charts and symbols. Various charts – Charts indicating process sequence: Outline process chart, flow process chart (man type, material type and equipment type); Charts using time scale – multiple activity chart. Diagrams indicating movement – flow diagram, string diagram, cycle graph, chrono cycle graph, travel chart. Motion study - Principle of motion economy, Two handed process chart, micro motion analysis – therbligs, SIMO chart.

UNIT IV 11 hrs Work Measurement: Definition, purpose, procedure, equipments, techniques. Time study- Definition, basics of time study- equipments. Time study forms. Selecting the job, steps in making a time study. Breaking the job into elements: Sample size, Timing card element: stop watch procedure. Predetermined motion time standards (PMTS). Time Study rating, calculation of standard time, setting time standards for work with machineries. Performance rating – relaxation and other allowances. UNIT V 8 hrs Work Study Application : Application of work study techniques in cutting, stitching and packing in garment industry. Comparative study of different manufacturing systems used in the garment production – group system, batch system- industrial system. TOTAL: 45 hrs

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TEXT BOOKS:

1. Johnson Maurice “Introduction of Work Study”, International Labour Organization, Geneva, 2005. 2. Kiell B.Zandin, “ Mayanard’s “ Industrial Engineering Hand Book”, Fifth edition, Mc Graw Hill, NewYork, 2001. 3. James M Apple “ Plant layout and Material Handling”, Third Edition, John Wiley and Sons, 1997. 4. Jacob Solinger “Apparel Manufacturing Hand Book”, Reinhold Co, 1998 REFERENCES: 1. Khanna.O.P., “Industrial Engineering and Management”, Danpat Rai and Sons, 1987. 2. Ralph M. Barnes, “Motion and Time Study Design and Measurement of Work”, 7th Edition, John Wiley and Sons, NewYork, 1980. 3. David C. Alexander and Baur Mustaga Pulat, “Industrial Ergonomics”, A Practitioner’s Guide, Institute of Industrial Engineers, USA 1985 4. Kantilla Ila, “Apparel Industry In India”, Prentice Hall, 1990.

29

FTY 119 COSTING AND MANAGEMENT IN APPAREL INDUSTRY 3 1 0 4 OBJECTIVES:

• To teach the students about different methods used in the apparel industry in product cost calculation.

• To impart knowledge on entrepreneurship skills and project preparation. UNIT I 10+5 hrs Estimating and Costing: Aims of estimating – Functions of estimating- Importance of preparing estimates- Estimating procedure- Estimate form–Types of estimates. Costing- aims of costing- Importance of Costing – Difference between estimating and costing – Elements of Cost. Overheads - Production overhead, Administration overhead, Selling and distribution overhead. Cost sheet. UNIT II 8+2 hrs Material and CMT Cost: Factors that determine the cost of garments – material cost – cost of yarn, cost of fabric production, cost of processing. Width, design and lot size of fabric affecting cost. Cost of components – cutting cost – making and trim cost (CMT cost) - Simple problems. UNIT III 9+2 hrs Preparation of Pre cost sheet: Packing and labeling cost – different types of labels and packing materials and their functions. Uses of brand and size label. Cost of bought out components - thread, Button, Zippers, Interlining. Shipment cost, Cost calculation for ladies, Men and children’s wear – woven and knitted – simple problems. UNIT IV 10+4 hrs Classification of Apparel Units: Classification of garment units – wovens – knit garments – lingerie –leather garment – sports wear – outer wear – under garments – hospital wear and Industrial Garment. Entrepreneurship – Entrepreneurship development skills. UNIT V 8+2 hrs Preparing Project Report: Setting up a small garment unit. Preparing a project report. Concept of small scale industry – advantages of SSI units. Large scale industry -its advantages over SSI. Bank assistance. Factory act – Welfare measures – Safety act.

(L= 45 hours, T = 15 hours) TOTAL : 60 hrs

TEXT BOOKS: 1. Maurice Johnson and E. Moore, “Apparel Product Development”, Om Book Service, 2001. 2. Katherin, McKelvy, “Fashion Source Book”, Om Book Service, 2001. 3. R.K.Sharma, “Development Banks and Entrepreneurship Promotion in India”, Mital Publications, New Delhi. 2003 4. O.P Khanna, “Industrial Engineering and Management”, DhanpatRai Publications REFERENCES: 1. B.M.Lall Nigam and I.C.Jain “Cost Accounting Principles and Practice”, Prentice Hall of India, 2007. 2. M.Y.Khan and P.K.Jain “Cost Accounting”, Hill publishing Ltd., New Delhi, 2007. 3. Ruth E.Glock and Grace I. Kunz, “Apparel Manufacturing Sewn Product Analysis”, Dorling Kindersley (India) Pvt. Ltd., 2005.

30

FTY120 QUALITY ASSURANCE IN APPAREL PRODUCTION 3 0 0 3 OBJECTIVES:

• To acquire knowledge on importance of quality assurance in manufacturing process. Concepts in quality assurance. Methods of inspection

• To acquire knowledge on statistical tools for quality assurance. International standards for apparel products and manufacturing process.

• To acquire knowledge on quality assurance in apparel manufacturing and finishing process, process standards and tolerance limits

UNIT I 9 hrs Introduction: Quality definition – Quality control and its necessity. Quality assurance - difference between quality assurance and quality inspection. Inspection and importance - Functions of inspection – Types of inspection - 100% inspection, spot checking. Sampling arbitrary sampling and statistical sampling. Comparison of 100% inspection and sample inspection. Systems of inspection – raw material inspection, in process inspection and final inspection– AQL standards. UNIT II 9 hrs Statistical Quality Control:Control charts and their application. Quality tools. ISO 9000. Total Quality Management, Quality Circles. Social Accountability - SA –8000, WRAP. Classification of Defects – product defect, process defect. Grading visual defects – defect Zones in apparel UNIT III 9 hrs International Standard Organizations - ISO, ASTM, BS, ANSI, ASA, BIS, ASQ, AATCC, GOTS, Oekotex and their role in specifying apparel standards. Specifications and standards for raw material, accessories, manufacturing process, testing and services. Standard performance specifications for women’s, men’s, children’s wear – woven and knitted UNIT IV 9 hrs Types Of Control Forms: Raw material purchase and utilization, spreading, cutting, sewing and packing. Quality control for fabrics – different types of defects in fabrics – classification into major and minor faults – fabric inspection systems – 4 point, 10 point systems. Quality control in pattern making, marker planning, cutting, sewing and packing. Production analysis – coordinating department activities – Distribution and maintenance of records. UNIT V 9 hrs Quality Control of Trims and Accessories – labels, buttons, zippers, fasteners and packing materials. Quality control system and standards for packing and packed goods. Tolerance limits and quality standard for fabric, cutting, sewing in garment industry, tolerances and quality standard for finished garments. Quality cost analysis - Cost of quality – cost of conformance - cost of non-conformance.

TOTAL: 45 hrs TEXT BOOKS : 1. Jacob Solinger, “Apparel Manufacturing Handbook”, Prentice Hall, 1998 2. Pradip V.Mehta, P.E, Satish K.Bharadwaj, “Managing Quality in Apparel Industry”, New age International (P) Ltd, Publishers, 2006 REFERENCES: 1. Sammel Eliou, “Production Planning and Control”, Wiley Eastern Pvt. Ltd.2007 2. M.Mahajan, “Statistical Quality Control”, Dhanpat Rai and Co. (P) Ltd, 2007 3. Billie J. Collier, Helen H. Epps, “Textile Testing and Analysis”, Prentice Hall, New Jersey,1999 4. Mario Bona, “Textile Quality” Texilia, 1994.

31

FTY 121 APPAREL FINISHING AND CARE 3 0 0 3 OBJECTIVES:

• To educate in techniques and processes for dyeing, finishing and care of garments. • To impart knowledge on types of finishes, selection of chemicals and parameters • To impart knowledge on functional finishes and special finishes. • To acquire knowledge on apparel care.

UNIT I 9 hrs Introduction: Reason for finishing, types of finishing, selection of chemicals with reference to type of garments and finishing – application conditions with variable parameters with respect to different garments (cotton, wool, silk, polyester and blends). UNIT II 9 hrs Functional Finishing: Water repellent/proof, flame retardant, heat resistant, mildew proof, moth proof, anti-static, soil release, UV protection , anti microbial and elastomeric finish(without compaction). Resin finishing – durable press, wash-n-wear, wrinkle free, silicone finishing and their methods of application. UNIT III 9 hrs Special Finishes: Process conditions, machineries, chemicals used for various special effects-stone wash, acid wash, enzyme wash, bio-polishing, sand blasting, ozone and laser fading, tinted denim, over dyed denim, reverse denim, pseudo denim, stretch denim, peach skin effect, quick wash denim, vintage wash, enzyme- soda wash, dextrose- caustic wash, sueding wash, golf ball wash, tie ‘n’ wash, marble wash and crush finish. UNIT IV 9 hrs Unconventional Finishing Methods: Plasma treatment, finishing using micro capsules, nano and electro chemical treatment of textile materials, self cleaning and phase changing materials. UNIT V 9 hrs Apparel Care: Types and characteristics of stains, Identification of stains, selection of stain removers, Stain removal methods - Oil, colour matter, Garment laundering equipments and procedures, Use of care labels and standards / norms for care labels

TOTAL: 45 hrs

TEXT BOOKS: 1. Nomeia D, souza., “Fabric Care”, New Age International (P) Ltd, Chennai, 1998. 2. Shenai V A, “Technology of Textile Finishing”, Sevak Publications, Mumbai, 1995. 3. "Garment Wet Processing Technical Manual", AATCC/SDC, 1994. REFERENCES: 1. Whittall N S, "Laundering and Dry Cleaning", vol.8, Textile Progress, 1996. 2. Pradip V Mehta, "An Introduction to Quality Control for the Apparel Industry", ASQC Quality Press, 1992. 3. Goldman R F and Lyle D S, “Performance of Textiles" John Wiley and Sons, New York 1987. 4. Hall A J, “Textile Finishing”, Elsevier Publishing Co. Ltd, 1986. 5. Richard A Scott, “Textiles for Protection”, The Textile Institute, Wood head Publishing Limited, CRC Press. 6. W.D. Schiendler and P.J. Hauser, “ Chemical Finishing of Textiles”, The Textile Institute, Wood

Head Publishing Limited

32

FTY412 APPAREL QUALITY EVALUATION LABORATORY 0 0 3 1 LIST OF EXPERIMENTS 1. Determination of Seam Strength and Seam Slippage

2. Determination of Zipper strength

3. Determination of Button Pull Strength

4. Determination of Peel bond strength of fusible interlinings

5. Determination of Wickability of fabric

6. Determination of Spirality and Course length of Knitted fabrics

7. Classification of Fabric defects and evaluation using 4 point system.

8. Determination of wettability of fabrics.

9. Analysis of garment defects and classification into minor, major and critical defects.

10. Analysis of Seam puckers.

11. Determination of garment Dimensional stability.

12. Color measurement of fabrics with computerized colour matching.

TOTAL: 45 hrs

33

FTY414 APPAREL MACHINERY LABORATORY 0 0 3 1 LIST OF EXPERIMENTS

1. Determination of Threading path and Stitches per inch in single Needle Lock Stitch Machine.

2. Adjustment of needle height, feed dog height and feed dog angle in single needle lock stitch

machine

3. Determination of Threading path and stitches per in inch in over lock stitch machine.

4. Adjustment of needle thread and Looper thread tension and feed ratio in over lock stitch

machine.

5. Determination of Threading path and stitches per inch in Flat lock stitch machine.

6. Adjustment of needle thread and Looper thread tension and feed ratio in Flat lock stitch

machine.

7. Adjustments in button sewing machine for button hole type, size of button

8. Adjustments in Button Holing machine for type of button hole, stitches per inch

9. Adjustments in Feed off the arm Machine.

10. Adjustments in Flat lock elastic attaching machine

11. Adjustments in Electronic Zig – Zag Sewing machine.

12. Adjustment in bar tacking machine

TOTAL: 45 hrs

34

GHE107 HUMAN EXCELLENCE - GLOBAL VALUES 0 0 2 1

1. Global values – understanding and identification – its importance. 2. Racial discrimination and solution – Ecological imbalance and solution. 3. Political upheavals and solution – Social inequality and solution – live case discussions and

debate. 4. Cultural degradation and solution – live case discussions and debate. 5. Emergence of monoculture – solution. 6. Global terrorism – it’s cause and effect – solution. 7. Economic marginalization and solution – it’s impact in the globe. 8. Man is the cause and man is the solution. 9. All Meditations. 10. All Yogasanas.

TOTAL: 15 hrs

35

ELECTIVE – I (Semester V)

36

FTY 201 FASHION PHOTOGRAPHY 3 0 0 3 OBJECTIVES:

• To acquire knowledge on the equipments involved in photography • To understand the importance and application of photography in various fields

UNIT I 9 hrs Introduction: Camera types – 35mm, SLR, Digital camera. Working principle of camera. Accessories: general accessories - lenses, lens filters, film types, flashlights- lighting accessories- power accessories, system accessories. Care and maintenance of camera. UNIT II 9 hrs Techniques: Camera techniques: Basic techniques – fundamentals of composition, depth of field, shutter speed, focusing, using exposures. Equipment techniques – filter techniques, lens techniques, flash techniques, studio flash techniques. Subject techniques – landscape, night photography, portrait, action photography and special effects. Outdoor and Indoor Photography – equipments, methods and lighting techniques. UNIT III 9 hrs Lighting and Film: Lighting – concept and importance – Types of lighting – front light, side light, back light, revealing Light, controlling light, flash and studio lighting. Film types – Black and White, Colour. Film speed- Film format. UNIT IV 9 hrs Subject Photography:Fashion Photography in different media – modeling, newspaper, magazines and fashion shows. UNIT V 9 hrs Developing and Printing: Basics of developing and printing – image mixing and printing. Computers in photography. Video photography

TOTAL: 45 hrs TEXT BOOKS: 1. Nirmal Pasricha, “A Professional’s Basic Photography”, Black Rose Publications, Delhi, 2002. 2. Daniel Lezano, “The Photography Bible”, A David and Charles Book., United Kingdom, 2004. 3. Simon Joinson, “Get the most from your Digital Camera”, A David and Charles Book., United Kingdom, 2004. REFERENCES: 1. Miller, W.R., “Basic Industrial Arts, Plastics, Graphic Arts, Photography”, McKnight Publishing Company, Illinois, 1978. 2. John Hedge, “Photography Course”, John Hedge Co, 1992. 3. Steve Bavister, “35 mm Photography -The Complete Guide”, A David and Charles Book., United Kingdom, 2004. 4. Peter Cattrell, “Photography”, Octopus Publishing Group Ltd, London 2005. 5. Sue Hillyard, “The Photography Handbook- A Step by Step Guide”, New Holland Publishers, London, 2003.

37

FTY 202 INTIMATE APPARELS 3 0 0 3 OBJECTIVES:

• To gain knowledge on market trends in lingerie. • To impart knowledge on design and development of men’s and women’s intimate wear.

UNIT I 9 hrs Intimate Apparel: Definition-Types- Night Wear, Under Wear, Classification of Kid‘s, Women’s and Men’s Intimates. Quality requirements for selecting suitable fibers, fabrics, designs, for intimate apparels. UNIT II 7 hrs Men’s Wear: Introduction, Design and development- measurements - Step by step drafting procedure and construction sequence - vests, briefs, trunks, robe. UNIT III 9 hrs Women’s Lingerie: Introduction, Design and development- measurements - Step by step drafting procedure and construction sequence - waist petticoats, bras, panties, camisoles. UNIT IV 9 hrs Night Wear: Introduction, Design and development- measurements - Step by step drafting procedure and construction sequence - Night Dress, Pyjamas, Bath Robes, Negligee UNIT V 11 hrs Intimate Apparel Accessories And Production Technology: Intimate Apparel Accessories -Accessories such as bra wire, hook and eye tape, ring and slider, buckle, plastic bone, Elastics, Threads etc. used for intimate apparel. Intimate Apparel Production Technology- Principles, methods, technical aspects and controls of lamination , moulding and welding for production of intimate apparels.

TOTAL: 45 hrs TEXTBOOKS : 1. W. Yu, J. Fan, S.C. Harlock, S.P. Ng “Innovation and Technology of Women's Intimate

Apparel”, Woodhead Publishing Limited, England, 2006. 2. Ann Haggar, “ Pattern Cutting For Lingerie, Beach Wear And Leisure Wear”, Black Well Science

Limited, France, 2001. REFERENCES : 1. Lynn Nottage, “Intimate Apparel / Fabulation”, Theatre Communications Group, USA, 2006. 2. Stokes Terry, “Intimate Apparel”, Brooklyn: Release Press, USA, 1980. 3. Singer, “Sewing Lingerie”, Cy Decosse Incorporated, Mexico, 1991.

38

FTY 203 SPECIALITY YARNS 3 0 0 3 OBJECTIVES:

To know the various speciality yarns and their application To teach the students various properties, method of production and end uses of speciality

yarns. UNIT I 9 hrs Core spun, Wrap spun and Metallic yarns Basic principle of core yarn spinning, different methods of core yarn production- ring spinning, rotor spinning, air jet and vortex spinning, raw materials used, properties and applications core spun yarns. Method of production of wrap spun yarns, metallic yarns, raw materials used, properties and end uses. UNIT II 9 hrs Mélange yarn and Fancy yarns: Definition of mélange yarn, methods of production, raw materials used, properties and end uses. Definition of fancy yarn, classification, methods of production, raw materials used, properties and applications, role of fancy yarns in design and engineering of fashion apparels. UNIT III 9 hrs Textured yarn and Embroidery yarns: Definition, importance of texturisation, different methods of textured yarn production-friction, airjet, stuffer box and edge crimping, properties and end uses. Process sequence in embroidery yarn production, Manufacturing details and machines required. Properties and applications of embroidery yarns. UNIT IV 9 hrs Knitted yarns and Dyed yarns: Requirement of hosiery yarn, raw material for hosiery yarn, process sequence and process parameters to make hosiery yarn from cotton. Properties and end use applications of hosiery yarn. Requirement of dyed yarns, Type of dyed yarns- Fibre dyed yarn- Dope dyed yarn. Dyed yarns from cheese, yarn dyeing. Yarn properties and applications. Unit V 9 hrs Singed yarn and Mercerized yarn: Hairy yarn Vs hair free yarn, Change in properties of yarn after singeing. Necessity of mercerization of yarn, Machine and sequence for yarn mercerization, prograde process. Yarn characteristics of mercerized yarn.

TOTAL: 45 hrs TEXT BOOKS : 1. Fancy Yarns; Manufacture And Application, Gong .R. H. and Wright .R. M, UMIST, UK, and The Textile Institute. 2. New Spinning Systems, R V Mahendra Gowda, NCUTE, 2006 REFERENCES : 1. Modern yarns for Modern fabrics seminar, Conference proceedings by TTI, The Textile Institute 1992. 2. The production of Textured yarns by methods other than false twist technique, The Textile Progress Vol.16, No.3, by D.K.Wilson and T.K.Kollu, The Textile Institute.

39

FTY 204 FASHION FORECASTING 3 0 0 3 OBJECTIVES:

• To understand the procedure of fashion forecasting and its significance in the garment industry

• To teach the role played by the various people involved in the fashion forecasting process UNIT-I 9 hrs Definition of forecasting - types of forecasting – source of Fashion forecasting information – forecasting agencies and their role in forecasting. Seasons and their impact on fashion. Compiling fashion forecasting information - forecasting agencies – forecasting magazines – websites –information in the forecasting publications.

UNIT-II 9 hrs Fashion forecasting packages and magazines specialist fashion forecasting companies –the role of forecaster in aiding fashion designers, developers and retailers- process of forecasting- decision making process- when to start forecasting for the selling season. UNIT-III 9 hrs Fashion trade fairs – designer collection – couture fashion shows, ready –to –wear fashion shows - designer diffusion ranges for the high street. In house design department – garment suppliers design department. UNIT-IV 9 hrs Colour forecasting: The views of the forecasters and trend information users, Colour knowledge, colour forecasting process, prediction of consumer’s future - colour preferences - research conducted by associations – colour forecasting companies- colour forecaster's toolkit- development of a colour story, predicting the direction for colour forecasting, future of colour forecasting. UNIT-V 9 hrs Colour ways- The timetable for colour way on forecasting, color story development and presentation – thought, reasoning and decision making- trend prediction and their interpretation, production and evaluation of trend information and mood board design.

TOTAL:45 hrs TEXT BOOKS:

1. Kathryn McKelvey and Janine Munslow, “Fashion Forecasting”, Wiley – Blackwell, USA, 2008

2. Tracy Diane and Tom Cassidy “Colour Forecasting”, Blackwell Publishing, UK, 2005. REFERENCES:

1. Helengoworek, “Fashion Buying”, Blackwell Science, USA, 2001 2. Mike Clements, “A Companion to Economic Forecasting”, Blackwell Publishing, UK, 2005. 3. Jon Scott Armstrong, “Principles of Forecasting: A Handbook for Researchers and

Practitioners”, Springer, USA, 2001. 4. Rita Perna, “Fashion Forecasting: A Mystery or a Method”, Fairchild Publishers, USA, 1987.

40

ELECTIVE – II (Semester VI)

41

FTY 205 GARMENT TRIMS AND ACCESSORIES 3 0 0 3

OBJECTIVES: • To understand the significance of selecting suitable trims and accessories for various

purposes • To understand the various standards involved in testing the various trims and accessories

UNIT I 9 hrs Introduction: Meaning, importance, classification, Factors affecting selection of raw materials, types of finishes for trims and accessories, importance of certification of trims and accessories in exports UNIT II 9 hrs Primary Trims: Linings-fibre types and properties- factors affecting selection of linings- making up and testing of linings – lining component patterns; Interlinings- fusible and non fusible –woven and non woven –types - chemical Bonded, thermal Bonded, Needle Bonded, spun bonded, Embroidery backing, water soluble Fabrics, Tricot Lining, Coat Lining, Mobilone Tape, Felts. Wadding or batting – types and characteristics UNIT III 9 hrs Secondary Trims: Closures (buttons, hooks and eyes, hooks and bars, press studs, rivets, zips, ,velcro), shoulder pads, tapes; Ornamental Trims- laces, braids , elastic, fringes, tassels, appliqués, transfer prints, tie cords, labels and motifs UNIT IV 9 hrs Packing And Finishing Accessories: Types of package forms – merchandise packaging and shipping packaging, Types of packaging materials – raw materials - Poly bags, collar accessories and backing boards, Quality specification for packaging materials – fitness certification for end use and bursting strength (ASTM Standards), Packing and shipping equipment – folding equipment, container packing equipment and conveyors.. UNIT V 9 hrs Performance and Testing: Performance properties of components and trims – Standards and certification for trims and accessories- Buttons (BS 4162 and ASTM D5171),Snap Fasteners(ASTM D4846) Zipper (BS 3084, ASTM D2061, AS 2332), Elastics (ASTM D4964 and EN 14704 Part 3), Safety tests (BS 7907, EN 71-1, 16 CFR 1501 (16 CFR 1500.51,52and53), Attached components/trims/Motifs/prints -Durability to washing – ISO 6330, Tests for nickel free and lead free trims and accessories.

TOTAL: 45 hrs TEXT BOOKS : 1.Harold Carr and Barbara Latham- Technology of Clothing Manufacture–Blackwell Science Inc. USA. 2. Jacob Solinger, “Apparel Production Handbook”, Reinhold Publications, 1998. 3. Gerry Cooklin – Garment Technology for Fashion Designers, Black well science Ltd. USA. REFERENCES: 1.Swiney John.B- Merchandising of fashion- Robald press. 2. Barton, Roger – Advertising Hand book – Prentice hall Inc. ( 1986). 3.Jarnow.J.A.and Judelle.B – Inside the fashion business (1974) 2nd edition 4. ASTM Standards - en.wikipedia.org/wiki/ASTM_International 5. ISO Standards- www.iso.org/iso/iso_catalogue.htm

42

FTY 206 FASHION RETAIL MANAGEMENT 3 0 0 3 OBJECTIVES:

• To acquire knowledge on concepts of retail market, types of retail market and structure of retail business.

• To gain inputs on merchandise management in retail sector. • To understand the basics of retail store location and in-store space management • To gain knowledge on retail pricing strategies.

UNIT I 9 hrs

Retailing: Definition, characteristics and functions of retailing, retailers, retailing channels, retail strategy. Retailing Organization: Structure of retail organization, retail units, merchandise mix, customer interaction, organized retailing, retail formats, geographical markets, retailing in rural India, vertical marketing system, challenges in retail business. UNIT II 9 hrs

Retail Customer Behaviour: Consumer behaviour, factors affecting consumer decision making, consumer decision process, influence of situational variables on shopping behaviour, customer profile and analysis. Retail Market Segmentation and Target Marketing: Segmentation - definition and benefits: Segmenting, targeting and positioning. Criteria for segmentation, types of markets, dimensions for segmentation, types of segmentation. Market targeting, customer profile, survey of buyers intentions. UNIT III 7 hrs

Merchandise Management: Product management, brand management and retailing, merchandise management, model stock plan, constraining factors, types of suppliers and selection criteria, category management, merchandise management planning in retail segments. UNIT IV 9 hrs

Retail Location and Space Management: Location decision- importance, levels and determining factors. Types of location, types of consumer goods and location decision. Site selection analysis. Retail space management - atmospherics, store space management, walls as retail selling tools, colour planning, physical materials in store designing, atmospherics in the context of internet retailing. UNIT V 11 hrs

Retail Pricing: Influences on retail pricing strategy, development in retail prices, retail pricing objectives, retail pricing approaches and strategies, consumer responsiveness to prices, role of price elasticity and sensitivity. Retail Promotion Strategy: Promotion mix selection, advertising, media selection, sales promotion, personal selling and publicity.

TOTAL: 45 hrs

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TEXT BOOKS: 1. Mike Easey , “Fashion Marketing “, Blackwell Scientific Publications, 2002 2. Gibson G. Vedamani, “Retail Management Functional Principles and Practices”, Jaico Publishing House, Second Edition, 2002 REFERENCES:

1. Nair Suja. R, Retail management, Himalaya Publishing House, 2008,

2. Bajaj Chetan Srivatsa Tuli, Retail management, Oxford University Press, 2008,

3. Fleming Peter, A Guide to Retail Management: Advice on retail operation, customer service and sales team, Jaico Publishing House , Mumbai, 2007.

4. Gopal, Retail Management: An Introduction, ICFAI University press, 2006,

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FTY 207 HOME FURNISHINGS 3 0 0 3 OBJECTIVES

• To gain knowledge on importance and market trends in home furnishings • To impart knowledge on types, design and development, care and

maintenance of different types of home furnishings UNIT I 9 hrs Introduction: Introduction of Textile Furnishing - definition – different type of furnishings materials – Woven and non-woven – Factors affecting selection of home furnishings – fibre, fabric, and value added finishing for home furnishings - soil repellency, mosquito repellency, flame proofing, dust repellency, antimicrobial finish. UNIT II 9 hrs Window Treatment Doors and Windows – types. Window Treatment – exterior, interior -hard and soft. Curtains and Draperies – types, parts, factors for selection and construction, accessories used. UNIT III 9 hrs Living Room Furnishing: Living Room furnishings - sofa Cover, cushion, cushion cover, bolster, bolster cover, teapoy cover. Floor covering – types - resilient floor coverings, soft floor coverings - carpet, rugs, mats. Wall coverings – types. UNIT IV 9 hrs Bed And Bath Linen: Bed linens – types – bed sheets, blankets, blanket covers, comforters, comforter covers, bed spreads, mattress and mattress covers, pads, pillows and pillow covers. Care and Maintenance of bed linen. Bath linen –types - towel, mats. Care and maintenance of bath linen. UNIT V 9 hrs Kitchen And Table Linen: Kitchen linens – types - dish cloth, towels, fridge cover, fridge handle cover, mixie cover, and grinder cover, napkin, apron. Table Linen – Types - table mats, table cloth, hand towel, doilies, runners. Cleaning materials – wipes and mops. Care and maintenance of kitchen and table linen

TOTAL: 45 hrs TEXT BOOKS : 1. Jay Diamond and Ellen Diamond, “Fashion Apparel, Accessories, Home Furnishings”, Pearson Prentice Hall, New Jersey, 2007. 2. Hamlym, “Bed and Table linen”, Octopus Publishing Group Ltd, Newyork, 2001. 3. David Holloway, “The Essential Book of Home Improvement Techniques”, Marshals Publications, London, 2000. REFERENCES : 1. Emma Callery, “The Home Decorator’s Colour Source Book”, Apple Press Ltd, London, 2006. 2. Heather Luke, “Design and Make Cushions”, Silverdale Books Ltd, Leicester, 2001. 3. Hamlym, “Curtains and Blinds”, Octopus Publishing Group Ltd, Newyork, 2001. 4. Susie Johns, “A Cornucopia of Cushions”, Apple Press Ltd, London, 1997. 5. James Merrell, “Living with Decorative Textiles “, Thames and Hudson ltd, London, 1995. 6. Caroline Lebea, “Fabrics The Decorative Art Of Textiles”, Thames and Hudson Ltd, London, 1994.

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FTY208 COMPUTER APPLICATIONS IN APPAREL INDUSTRY 3 0 0 3 OBJECTIVES:

• To impart knowledge on CAD / CAM applications in Apparel designing and manufacturing • To impart knowledge on Computer application in Apparel Production Planning and Control

UNIT I 9 hrs Computer Basics- Introduction to Computer fundamentals –computer specifications, Input, output, and storage technologies. Computer Software – Application software, system software, commercial software, graphics software – vector and raster graphics. Computer network: LAN/WAN, Web and email. Overview on Computer Integrated Manufacturing (CIM), Computer Aided Design (CAD), Computer Aided Manufacturing (CAM), Concept of Computer Aided Administration (CAA). UNIT II 11 hrs Computer Aided Textile Design Systems- Textile CAD: Warp and Weft design, Simulation of colour and weave effect - Plain and stripe effect, automatic peg plan and draft generation; Weave construction library – Knitting Design CAD – features and process in knit designing. Print design CAD: Touch up and production of mask films; automatic repeats and half drop generation, colour separation. Embroidery Design CAD: features and process of punching software. UNIT III 9 hrs Computer Aided Fashion and Pattern Design Systems: Illustration/ Sketchpad systems, garment designing and texture rendering, story board and cataloguing, 2D and 3D Texture mapping, Virtual Garmenting. 3D Body Measurement System –Digitizer -Pattern Drafting system- Grading – grade rule table - Marker planning. UNIT IV 9 hrs Computer Aided Garment Production Systems: Computer application in fabric defect checking, computerized fabric laying – cutting, sorting and labeling. Principle of Radio frequency tagging- Application in material handling, cutting and ware house storage. UPS system- Robotics- Computer aided colour matching and approval. UNIT V 7 hrs Computer Aided Management Systems: E-prototyping in garments – Electronic catalogues – E-commerce in apparel industry – Enterprise Resource Planning (ERP), Electronic Data Interchange (EDI), Management Information System (MIS), - Computer aided Management and Production control.

TOTAL: 45 hrs TEXT BOOKS: 1. Rence weiss chase, CAD for fashion Design”, Prentice Hall Inc., 1997. 2. Winfred Aidrich,”CAD in Clothing and Textiles”, Blackwell Science Ltd., 1994. REFERENCES: 1. Patric Taylor,”Computer in the Fashion Technology”, Om Book Service,1997. 2. Sigmon, D.M., Grady P.L. and Winchester S.C, “Computer Integrated Manufacturing and total quality management”, Textile Progress, Vol. 27, No.4, 1998, ISBN: 1870372166.

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ELECTIVE – III (Semester VII)

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FTY 209 APPAREL EXPORT MANAGEMENT 3 0 0 3 OBJECTIVES:

• To acquire knowledge on basics of international trade. Position of India in global textile trade • To gain knowledge on method of setting up export unit and understand exim policy of the

government • To understand the sources for export finance, various export support schemes • To gain knowledge on export procedure and documents for export and export realization.

UNIT – I 12 hrs Introduction To International Trade: Need, Basics of international trade - apparel exports, WTO, regional economic groups. International trade statistics on textiles and apparel. Prospects for Indian apparel exports and SWOT analysis. UNIT – II 8 hrs Export Business: Setting up of export business - export marketing organisation, product planning for export markets, export pricing and costing, International Commercial (Inco) Terms. Export correspondence - negotiations for export business. UNIT – III 8 hrs Exim Policy: High lights of Exim Policy 2008 – 2013. Various schemes for export promotion - duty drawback, duty exemption, duty remission. EOU, free trade zones, special economic zones, market access initiative, market development assistance, brand promotion, trading house, export houses, ware housing zones, foreign exchange mechanism. UNIT – IV 8 hrs Export Finance: Basis for export finance - pre shipment credit, post shipment finance - short / medium / long term credits, foreign exchange cover. Exim bank, ECGC – purpose, polices. Financial guarantees. Methods / terms of payment in exports – letter of credit, advance payment, cash against documents, documents on acceptance, consignment basis. UNIT – V 9 hrs Export Procedure and Documentation: Export procedure – receipt of confirmed order, production and clearance of products for exports, shipment, negotiation of documents and realization of export proceeds, obtaining various incentives. Documentation - transport documents, commercial documents, regulatory documents.

TOTAL: 45 hrs

TEXT BOOKS: 1. Balagopal T A S, “Export Marketing“, Himalayan Publishing House, 2005. 2. Govt. of India’s, “Foreign Trade Policy”, 2007. REFERENCES: 1. Palle Krishna Rao, “WTO – Text and Cases - PSG – Excel Series”, Excell Books 2005. 2. Hearle J W S, Hines T and Suh M, “Global Marketing of Textiles”, Journal of The Textile Institute (Special Issue) 1997. 3. “Globalization: Technological, Economic and Environmental Imperatives”, The Textile Institute, 1995. 4. P.K.Khurana , “Export Management”, Galgotia Publishsing Company, 2003.

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FTY210 CREATIVITY, INNOVATION, AND NEW PRODUCT DEVELOPMENT 3 0 0 3

OBJECTIVES:

• To impart knowledge on the concept of product design and development • To impart knowledge on feasibility and evaluation of new product. • To impart knowledge on proto type creation and testing. Patent laws. • To educate on market research.

UNIT I 9 hrs Creativity: Concept and history of creativity, need for creativity, creative environment, stages of creativity process, creativity and intelligence, creativity in various contexts, economic view of creativity, measuring creativity, fostering creativity, creative problem solving – brain storming and various techniques, lateral thinking. UNIT II 9 hrs Innovation: Definition, creativity vis-à-vis innovation, conceptualizing innovation, types of innovation, sources of innovation, goals of innovation, process of technological innovation, diffusion of innovation, factors contributing to successful technological innovation, failure of innovations, innovation management, measures of innovation. UNIT III 9 hrs Project Planning and Evaluation: Definition and purpose of project, collection of ideas, screening ideas, selection criteria for new projects, development of project plan, project evaluation – purpose, kinds of evaluation, stages of evaluation process, techniques of project evaluation, project analysis, benefits and risks of new projects.

UNIT IV 9 hrs Product Development and Evaluation: Research and new product development – process and types of new products, creative design, design of prototype – purpose, process, and types, model preparation, testing and quality evaluation; marketing research – purpose and process, types and methods; introducing new products, cost evaluation. UNIT V 9 hrs Protection of Innovation: Intellectual property (IP), classes of IP – industrial property and copyrights; Intellectual Property Rights (IPR); Patents, patentability, patent acts, governing laws, history of patent laws and acts, patent administration; patenting process – patent application, patent search, prosecution, publication, examination, opposition, grant, renewal, patent rights; international code for patents, patents vis-à-vis economics.

TOTAL : 45 hrs TEXTBOOKS :

1. Tom Kelly, The Art of Innovation, Doubleday, Random House Inc. USA, 2001. 2. Managing Creativity and Innovation (Harvard Business Essentials), Harvard Business School, 2003.

REFERENCES : 1. Brain Twiss, “Managing Technological Innovation”, Pitman Publishing Ltd., 1992. 2. Harry B. Watton, “New Product Planning”, Prentice Hall Inc., 1992. 3. Paul Birch and Brian Clegg, Business Creativity – A Guide for Managers, Kogan Page, London,1995, 4. Leigh L. Thompson, Hoon-Seok Choi, Creativity and Innovation in Organizational Teams, Lawrence

Erlbaum Associates, USA, 2006. 5. Paul E. Plsek, Creativity, Innovations and Quality, Irwin Professional, USA, 1997. 6. Alan G. Robinson, Sam Stern, Corporate Creativity: How Innovation and Improvement Actually

Happen, Berrett-Koehler Publishers, USA, 1998.

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FTY211 - FUNCTIONAL CLOTHING 3 0 0 3 OBJECTIVES:

• To acquire knowledge on functional requirements of clothing and factors influencing functional performance of clothing.

• To understand the fibres, fabrics and technology adopted in medical textiles, protective clothing.

• To acquire knowledge on functional requirements of sports wear. Fibres, fabrics and techniques used in sportswear manufacture

• To understand the application of smart wears. Methods of modifying fibre and fabric properties for smart wear applications.

UNIT I 8 hrs Introduction: Functional design of textiles; properties of textiles for specific functions: structural, aesthetic, Functional properties – comfort and fit UNIT II 8 hrs Medical Wear: Classification of medical textiles and their functions – Textile materials used for implants and non-implants –Textiles for extracorporeal devices- Healthcare and hygiene products UNIT III 9 hrs Protective Wear: Materials used, requirements and functions of flame resistant protective clothing-chemical protective clothing- mechanical protective clothing – electrical protective clothing and radiation protection UNIT IV 10 hrs Sports Wear: Clothing requirements, developments of functional fibres, yarns and fabrics suitable for sportswear application and its properties; Footwear Clothing - Fabric requirements, finishing adaptability and evaluation methods UNIT V 10 hrs Smart and Intelligent Textiles: Smart fibres: Nano fibres, Photo adaptive fibres, Chameleon fibres, Conductive fibres – properties and applications in textiles and apparels. Phase change materials: production and applications. Shape memory polymers and properties. Stimuli sensitive intelligent textiles, Smart textiles incorporating functional devices

TOTAL 45 hrs TEXT BOOKS: 1. Horrocks A. R. and Anand S. C, Handbook of Technical Textiles, The Textile Institute, Woodhead Publications, Cambridge, UK, 2000 2. Adanur S., Wellington Sears Handbook of Industrial Textiles, Technomic Publishing Co. Lanchester, USA, 1995 REFERENCES: 1. Vigo T. L., Intelligent Fibres, Journal of Textile Institute 1999, 90, Part 3, Textile Institute 2. Anand S., Medical Textiles, Textile Institute, UK, 1996 3. Sanjay Gupta, Smart Textiles – Their Production and Marketing Strategies, Bhumica Printers, New Delhi, 2000 4. Tao X., Smart Fibres, Fabric and Clothing, Textile Institute, Woodhead Publishing Limited, Cambridge, 2001

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FTY 212 APPLICATION OF ERP AND MIS IN APPAREL INDUSTRY 3 0 0 3 OBJECTIVES:

• To understand the basic concepts and applications of ERP and its modules • To acquire knowledge on ERP application of business process re-engineering and

management • To understand application of information technology in management information systems

and business communication. UNIT I 9 hrs Introduction: An overview and features of ERP, MIS integration, ERP drivers, Trends in ERP, ERP in India. ERP system perspective – Management Information System, Operations Support System, Transaction Processing System, Network Structure of ERP system, ERP work flow, Process modeling for ERP systems, Communication in ERP systems, OLTP, (On Line Transaction Processing), OLAP (On Line Analytical Processing), Enterprise Integration application tools for ERP. UNIT II 9 hrs Resource Management Perspective: Business modules in ERP packages, Finance, Production, Human Resource, Plant Maintenance, Materials Management, Quality Management, Sales and Distribution, Resource Management, Business Process Reengineering, Relationship between ERP and BPR, ERP Implementation Life cycle, Implementation methodology, ERP Project Management and Monitoring. ERP and E-Commerce, ERP Culture, ERP and CRM, ERP and SCM, ERP selection issues, ERP in Public Sector Enterprises, Pre- and Post-implementation issues, ERP Vendors, Key ERP consultants in India, Future directions in ERP. UNIT III 9 hrs Basics of Information System: Introduction to Information system in business, Need for Information Technology, System concept, Components of an information system, Information system resources, Information system activities, recognizing information system. Expanding role of information systems, Operating support system, Management support systems. UNIT IV 9 hrs Internet and Electronic Commerce: Introduction, Business use of internet, Interactive marketing, Business value of the internet, Customer value and the internet. Fundamentals of Electronic Commerce (EC), EC applications, Business-to-Consumer commerce, Business to Business commerce, Electronic payments and security. UNIT V 9 hrs Information Systems for Business Operation: Applications of intranets, intranet technology resources, the business value of intranets, the role of Extranets, enterprise collaboration systems. Information systems for marketing, manufacturing, human resources, accounting, financial, transaction processing, managerial and decision support, Information systems for strategic advantages, Strategic application and issues in IT, ethical and societal challenges of information technology.

TOTAL: 45 hrs TEXTBOOKS :

1. V.K.Garg, Venkat and N.K.Krishna, “ERP Concepts and Practices”, 1st edition, PHI Publications, 1997. 2. James A. O’Brien, “Introduction to Information Systems”, Tata McGraw Hill, New Delhi, 2005.

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REFERENCES :

1. Alexis Leon, “ERP Demystified”, 1st edition, Tata McGraw Hill, New Delhi, 2000.

2. S.Sadagopan, “ERP: A Managerial Perspective”, 1st edition, Tata McGraw Hill, New Delhi,

1999.

3. Langenalter, A.Gary, “Enterprise Resources Planning and Beyond”, 1st edition, St. Lucie Press,

USA, 2000.

4. Diwan, Parag and Sharma, Sunil, “Enterprise Resource Planning: A Manager’s Guide”, 1st

edition, 1999.

5. E.Turban, E.McLean and J.Wetherbe, “Information Technology for Management: Making

Connections for Strategic Advantage”, John Wiley and Sons, New Jersey, 2001.

6. W.S.Jawadekar, “Management Information Systems”, Tata McGraw Hill, New Delhi, 2004.

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ELECTIVE – IV (Semester VIII)

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FTY213 PRODUCT ENGINEERING AND PLANT LAYOUT 3 0 0 3 OBJECTIVES:

To impart knowledge on techniques of product and production process analysis and control

To impart knowledge on product analysis with respect to quality, standards and cost To impart knowledge on production process evaluation, control and manufacturing information systems work study

UNIT I 6 hrs Product Analysis: Relationship between quality and construction of a seven product – geometric principles of draping, drafting and industrial patterns – product specifications. UNIT II 8 hrs Production Control and Engineering: Industrial engineering concepts – Development and application of standard data for pre-costing and factory scheduling – Basic production systems – production control charts. Manufacturing Information system; Systems and procedures. UNIT III 10 hrs Production Management Analysis: Analysis of techniques for material utilization and cutting of raw materials for all types of sewn products principles and methods of costing, evaluation production problems in spreading, cutting and cost control. UNIT IV 11 hrs Plant Layout: Definition – Types of production layout, criteria for evaluation of a plant layout, determining minimum space requirement, plant size location, Basic production layouts, Government regulations for plant layouts. UNIT V 10 hrs Time And Motion Study: General approach for making a time and motion study, preliminary data for time and motion study sheet; sewing work study, Principles of work cycle timing methods, objectives of time study, statistical approaches – statistical calculation of time study – operator efficiency distributions. Evaluating motion study data – Principles for improving sewing and pressing operations.

TOTAL - 45 hrs TEXT BOOKS:

1. Jacob Solinger., “Apparel Manufacturing Handbook”, VanNostrand Reinhold Company (1980)

2. Bethel, Tann, Atwater and Rung., “Production Control” McGraw Hill Book Co., New York, (1948)

REFERENCES : 1. Biegel, John. E., “Production Control – A Quantitative Approach” Prentice Hall Inc. (1971)

2nd edition. 2. Immer, John. R., “Layout Planning Techniques” McGraw Hill, New York, (1950) 3. Barnes, Ralph M., “Motion and Time Study”, John Wiley and Sons, New Yok., (1958)

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FTY214 FASHION PROMOTION 3 0 0 3 OBJECTIVES:

• To educate about principles of marketing, market research and communication • To understand fashion communication process and the decision making process of

consumers. UNIT I 9 hrs Fashion Communication - Fashion and Anti fashion, Fashion clothing and Deception, Fashion clothing and culture, Fashion power and Ideology. Function of Fashion Clothing - Material function – protection, modesty and concealment, immodesty and attraction. Cultural functions – individuality expressions, social status, social role, economic status, political status, religious status. UNIT II 9 hrs Fashion and Society: Fashion and modernity, fashion and post modernity, fashion art, performance, masquerade fashion and allegory, fashion and un-decidability, fashion and pastiche, fashion and bricolage, fashion and ambivalence. UNIT III 9 hrs Market and Market Research: Definition of Fashion- Fashion marketing – Development of Fashion market – Size, Structure – marketing requirement- Fashion Buyer – Fashion marketing Research – Purpose of research -research design and data sources – Sampling methods – data Collection – Forecasting Fashion – Market Segmentation - Fashion marketing mix. UNIT III 9 hrs Consumer: Fashion, fad, style – Application – Society Fashion and individual fashion – their Coordination - wardrobe Applied illusions – Physical effects- Overall height- over all weight – Covering body defects by design - Consumer influence on market – types of consumers - decision making process. UNIT V 9 hrs Fashion Product Development: Fashion Products and its importance – Fashion Industry and new Product Development – Fashion Designers role in apparel market – Branded Products – personal labels – stores that seek the merchandise.

TOTAL : 45 hrs TEXT BOOKS : 1. Mike Easey, “Fashion Marketing”, Blackwell Science, 2000. 2. Maurice J.Johnson and Evelyn C.moore, “Apparel Product Development”, Prentice Hall Inc., 2001. REFERENCES :

1. Marian L. Davis, “Visual Design in Dress”, Prentice Hall Inc., 1976. 2. Smith, P. R. and Taylor, J., “Marketing Communications: An Integrated Approach”, Kozan

Page, London, U.K. 2005. 3. Agins, T. "The end of Fashion; How Marketing Changed the Clothing Business Forever",

Perennial, 2000. 4. Hines, T and Bruce, M. “Fashion Marketing-Contemporary Issues”, CIM, 2001 5. George Belch, Michael A Belch, “Advertising Promotion: An Integrated Marketing

Communication Perspective”, Tata Mc Graw Hill, 2001. 6. John M Penrose, Robert W Rasberry, Robert J. Myers, “Advanced Business

Communication”, South Western Publication Company, 2001

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FTY 215 BIO TEXTILES 3 0 0 3 OBJECTIVES:

• To impart knowledge on biotechnology applications in textiles • To teach the students about enzyme applications in textile finishing and evaluation of

enzyme treated fabrics UNIT I 7 hrs Introduction to Enzymes: Enzymes and proteins, sources and applications, Enzyme activity, production of enzymes. UNIT II 10 hrs Enzymes for natural fibres: Enzyme for singeing, desizing, scouring, retting, lignin removal and bleaching. Enzyme activity-initiation, propagation and termination reactions, reaction conditions, properties of substrates and results of enzyme treatment. UNIT III 12 hrs Enzymes for protein fibres: Enzymes for protein fibres, Enzymes for softening and scouring of wool. Bio washing enzymes using cellulose profeases for scouring of animal fibres. Degumming of silk. Enzyme activity of amyloglucosidase, pectinase, glucose oxlclase, peroxidates and other enzymes used for bleaching decolourisation of textiles using laccases. Bio polishing enzymes such as cellulases. UNIT IV 8 hrs Enzymes for Textile finishing: Combined processes, bio washing, bio polishing, denim fading, anti odor and anti microbial finishes, bio finishing and other applications. Enzymes in effluent treatment. UNIT V 8 hrs Evaluation of enzyme treated fabrics: Weight loss, Whiteness index, absorbency, tensile strength, handles of fabric and abrasional resistance. SEM analysis and other structure related studies.

TOTAL - 45 hrs TEXT BOOKS: 1. Textile Processing with Enzymes, A.Cavaco, Textile Institute Publication, 2003. REFERENCES:

1. Georg M.Guebitz, A.Rtur Cavaco Jounal of Natural Fibres Volume 3 2006.

2. Enzymatic Finishing of Wool Fabrics, Ascension Riva, Ines Algaba, 2006

3. Enzymatic Pretreatement Ledakrwicz, Ritapya, 2003

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FTY 216 APPAREL AND TEXTILE ECONOMICS 3 0 0 3 OBJECTIVES:

• To understand concepts of macro and micro economics. Demand analysis and elasticity of demand

• To understand the methods of evaluating engineering projects • To understand the basics of costing and banking. Sources of finance for projects

UNIT I 9 hrs Engineering Economics: Nature and scope, General concepts on micro and macro economics. Consumption and Standard of Living. Demand analysis Law of demand and its exceptions, Elasticity of demand. Law of supply and elasticity of supply. Determination of equilibrium price under perfect competition. UNIT II 9 hrs Time Value of Money: Simple and compound interest, Cash flow diagram, Principle of economic equivalence. UNIT III 9 hrs Evaluation of Engineering Projects: Present worth method, Future worth method, Cost-benefit analysis in public projects. Depreciation policy, Depreciation of capital assets, Causes of depreciation, Straight line method and declining balance method. UNIT IV 9 hrs Cost Concepts: Elements of costs, Preparation of cost sheet, Segregation of costs into fixed and variable costs. Break-even analysis-Linear approach. (Simple numerical problems to be solved) UNIT V 9 hrs Banking: Meaning and functions of commercial banks; functions of Reserve Bank of India. Overview of Indian Financial system. Money, Banking and Taxation, Money - its functions and importance, Determination of value of money-quantity, theory of money. Measurement of change in the value of money: index numbers. Banking : functions of commercial and central banks. Role and functions of Modern Governments, Public and private finance. Sources of public revenue. Taxation: types, shifting and incidence of taxation, tax system in India.

TOTAL: 45 hrs TEXT BOOKS: 1. Riggs, Bedworth and Randhwa, “Engineering Economics”, McGraw Hill Education India, 2008 2. D.M. Mithani, Principles of Economics. Himalaya Publishing House 2010 REFERENCES : 1. Sasmita Mishra, “Engineering Economics and Costing “, PHI, 2009 2. Sullivan and Wicks, “ Engineering Economy”, Pearson, 2009. 3. R.Paneer Seelvan, “ Engineering Economics”, PHI , 2008 4. Gupta, “ Managerial Economics”, TMH, 2008 5. Lal and Srivastav, “ Cost Accounting”, TMH, 2010

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FTY 217 VISUAL MERCHANDISING 3 0 0 3 OBJECTIVES:

• To impart knowledge on elements and environments of visual merchandising • To teach the students about store planning and assortment planning

UNIT I 9 hrs Fundamentals of Visual Merchandising: Visual Merchandising - meaning, objectives and scope. Display basics – colour and texture, line and composition, lighting. Types of display and display settings. Approaches in Visual Merchandising- In house staffing, Department Store Approach Small Store Approach. Role of Visual Merchandising in changing face of retailing. UNIT II 9 hrs Elements of Visual Presentation: Store Design, materials and props, lighting and colour, signage and graphics, points of purchase, sound usage. Display Fixturing, mannequins and other human forms, alternatives to mannequins, dressing the mannequins-wigs and make up, Fixtures – criteria for selection of fixtures, dressing fixtures, modular fixtures, furniture as props UNIT III 9 hrs Environment for Visual Presentation: Store exterior – marquee, facade, exterior display, surrounding stores and window displays and types; Store interior – store atmospheric, aesthetic, execution of store lay out - selection of display locations, lifts, staircase, elevators, utilisation of store space. Points of display – visual merchandising planning, point of purchase display, industrial display, fashion shows, trade organizations and sources. UNIT IV 9 hrs Display Techniques and store planning: Attention getting devices, familiar symbols, masking and proscenia, sales ideas, fashion accessories, graphics and signage. Store layout planning- grid, race track, freeform – direction of flow and planogram; Seasonal and trend decision for point of emphasis – creativity in display; Planning of assortment, theme, ensemble, racks, shelves, bins, etc. and balance of display in a show room UNIT V 9 hrs Execution of a Visual Presentation: Application of colour schemes, colour psychology, creating mood by colour used in garment display. Assortment planning, Optimize apparel assortments; Computer Aided Visual merchandising- Information technology in data management, assortment planning and inventory management. Budgeting and safety factors in visual merchandising.

TOTAL: 45 hrs TEXT BOOKS: 1. Pegler M.M., “Visual Merchandising and Display”, IV Edition, Fair child Publications, New York, 2001. 2. Diamond. J, Diamond, E., “Contemporary Visual Merchandising”, Prentice Hall Inc. New Jersey 2003. REFERENCES: 1. Diamond. E, Fashion Retailing – A Multi channel Approach, II Edition, Prentice Hall Inc. New Jersey 2006. 2. Rath P.M., Peterson J., Greensley.P, Gill.P, Introduction to Fashion Merchandising, Delmar Publishers Inc., New York 1994. 3. Phillips P.M., Fashion Sales Promotion, II Edition, Prentice Hall Inc, New Jersey, 1996. 4. Curtis E, Fashion Retail, John Wiley and Sons Ltd, England, 2004

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ELECTIVE – V (Semester VIII)

59

FTY 218 LOGISTICS AND SUPPLY CHAIN MANAGEMENT 3 0 0 3 OBJECTIVES:

• To enable students to understand the concept of logistics and supply chain management • To understand the principle, process and best practices of demand management • To impart knowledge on application of IT in SCM • To be familiar with Distribution Network Planning • To know about emerging trends in SCM

UNIT I 9 hrs Overview of SCM and Logistics: Definition of logistics and supply chain management, Evolution of logistics, logistics and competitive performance, physical distribution management. Principles of supply chain management – functions of supply chain management, Customer focus in supply chain management – customer service, Efficient Consumer Response (ECR). UNIT II 9 hrs

Design and Management of Supply Chain: Phases of supply chain management, inbound and outbound logistics – suppliers to manufacturers, manufacturers to consumers. Logistics management - design and management, integrated supply chain, pull and push strategy. Demand management - demand forecasting and shaping. Bull wick effect- Influencing factors, control measures. UNIT III 9 hrs

Global Supply Chain Management: Organizing for global markets – World Class Supply Chain Management (WCSCM). Stages in global SCM. International logistics. World class Logistics Management (WCLM) UNIT IV 9 hrs

IT Enabled Supply Chain Management: Information technology in the integrated supply chain, importance, information requirements and applications. Intelligence information system – material resource planning, manufacturing resource planning, enterprise resource planning. IT packages – SAP R/3 ERP, BAAN ERP solutions, i2 Rhythm, selection of suitable package. Cost and Performance Measurement In Supply Chain Management: Cost drivers, activity based costing, logistics cost, customer profitability analysis. Benchmarking – importance, role and methodology, challenges in implementation. Performance measurement systems. UNIT V 9 hrs

Distribution Network Planning: Transportation mix – ware housing, transportation cost, transportation decision and futuristic direction in transportation. Location strategy – plant location, distribution problem, ware house location, retail facility location. Emerging Trends in Supply Chain Management: Collaboration strategies, Vendor Managed Inventory (VMI), third and fourth party logistics, green supply chain, reverse logistics. .

TOTAL: 45 hrs

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TEXT BOOKS: 1. Douglas M.Lambert, James R.Stock and Lisa. M.Ellram, “Fundamentals of Logistics Management”, Columbia Boblin Media Corp., 1998. 2. Donald J.Bowersox and Davis J.Closs, “Logistics Management – The Integrated Supply Chain Process”, Columbia Boblin Media Corp., 2006. 3. Sunil Chopra and Peter Meindal, “Supply Chain Management: Strategy, Planning and Operations”, Prentice Hall Inc., 2001.

REFERENCES:

1. Benjamin S.Blanchard, “Logistics Engineering and Management”, Mc Graw Hill, Inc. New York, 2002. 2. Martin Christopher, “Chap.7 of Logistics and Supply Chain Management – Strategies for reducing cost and improving service”, Second Edition. McGraw Hill. Inc., New York 1992.

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FTY219 ENERGY MANAGEMENT IN APPAREL INDUSTRY 3 0 0 3 OBJECTIVES:

• To understand the importance and concepts of energy management. Global perspective on energy saving.

• To gain knowledge on energy auditing methods, control measures. • To acquire knowledge on energy conservation techniques in various areas of manufacturing

unit UNIT I 7 hrs

Energy Management and Conservation: Concept of energy management - need for energy conservation - Demand - Supply Management. Global Energy Concerns: Global energy conservation scenario – energy conservation measures in India. United Nations Framework on sustainable development, Kyoto Protocol. UNIT II 11 hrs

Energy Management and Audit: Definition of Energy Audit, need and types of energy audit, energy audit instruments. Understanding energy costs, bench marking energy performance, matching energy use to requirement, basic principles for optimizing the input energy requirements. Energy Management Department - Top management support, managerial function, roles and responsibilities of energy manager, accountability. Motivation of employees: Information system – overcoming barriers. Energy Monitoring and Control: Cumulative Sum of Differences (CUSUM) of Energy production and consumption, Energy production and consumption monitoring and control, elements for monitoring, data analysis and control. UNIT III 12 hrs

Energy Consumption Analysis: Methods for energy consumption analysis. Analysis for apparel manufacturing machineries and finishing equipments. Cost of energy Vs sales value of apparel product. Energy Conservation in Factory: Energy saving opportunities with energy efficient motors. Factors affecting the electrical energy performance and energy saving opportunities. Factors affecting Refrigeration and Air conditioning system performance and saving opportunities. Lighting System - Light source, choice of lighting, luminance requirements, and energy conservation avenues. Diesel Generating system - Factors affecting selection, diesel energy conservation avenues. Waste Heat Recovery - Classification of waste heat. Source of waste heat in apparel industry. Commercially viable waste heat recovery devices, saving potential. UNIT IV 7 hrs Developments in Energy Efficient Technologies: Maximum demand controllers, automatic power factor controllers, energy efficient motors, soft starters with energy saver, variable speed drives, energy efficient transformers, electronic ballast, and energy efficient lighting controls. UNIT V 8 hrs Application Of Non Conventional Energy Sources: Scope of application of non-conventional energy - Solar energy: different type of collectors — photovoltaic cells. Wind energy, Bio energy, environmental impact on energy and co-generation by using different techniques.

TOTAL = 45 hrs

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TEXT BOOKS:

1. Kalyanaraman. A.R, “Energy Conservation in Textile Industries”, SITRA 1995 (Revised) 2. Palaniappan. C et al, “Renewable Energy Applications to Industries”, Narose Publishing House, New Delhi, 1998. 3. Energy Management an PCRA Monograph. 4. Pradeep Chaturvedi and Shalini Joshi, “Strategy for Energy Conservation in India”, Concept Publishing Co., New Delhi, 1995. REFERENCES:

1. Proceedings of International Seminar cum Exhibition ASIA Energy Vision 2020 — Sustainable Energy Supply, November 15-17, 1996 2. Proceedings of 12 Shirley International Seminar, “Profitable Energy Savings in the Textile Industry”, September 16-18, 1980 3. Proceedings of the Seminar, “Strategies for Sustainability of Energy Efficient and Environmental Friendly Technologies in Small and Medium Scale Sector”, PSG College of Technology, November 24, 2000. 4. Proceedings of All India Workshop, “Latest Trends in Energy Audit Systems”, Institution of Engineers (I), December 12-13, 1993.

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FTY 220 APPAREL BRAND MANAGEMENT 3 0 0 3 OBJECTIVES:

• To acquire knowledge in branding and concepts applied in branding • To understand the methods in brand building and brand extension • To acquire knowledge on global branding principles and managing the brand • To understand the fundamentals of advertisement, creating an advertisement, media for

advertisement and their evaluation. UNIT I 9 hrs Basics of Branding: Concept, image, identity, loyalty. Brand name, branding strategy - Apparel brands. Brand positioning - competitive positioning, product positioning, brand equity. Intellectual property rights – Trademark and brand registration. UNIT II 9 hrs Brand Building: For apparel products. Consumer branding vs. technology branding, corporate branding, retail branding. Brand extension: Concept, evaluation of opportunities, influencing factors, extension guidelines. UNIT III 9 hrs Global Branding: Rationale, advantages / disadvantages. International branding strategy - planning system, leadership, cross-country relationship. Brand Management Systems: Role of Product managers / brand managers. Trends in brand management - brand cult, brand alliances – co branding. UNIT IV 9 hrs Advertising: Definition, advertising objectives, benefits, economic aspects and ethics in advertising. Advertising and marketing mix. Advertising Business: Organization, advertising manager, advertising agency, advertising plan, basic principles, agency compensation. Public relations UNIT V 9 hrs Advertising Appeal: Message – reach, frequency, impact and effectiveness Media Overview: Types of media, media selection, media plan, media cost and availability. Matching media and market. Geographical selectivity, media strategy, media mix, media scheduling. Comparative evaluation. Advertising Budget: Allocation of budget for various components of advertising. Methods of determining budget for advertisement. Administering the advertisement budget

TOTAL: 45 hrs TEXT BOOKS: 1. Harsh.V.Verma, “Brand Management- Text and Cases”, Excel Books, New Delhi, 2005 2. Moorthi Y L R, “Brand Management”, Vikas Publications House Pvt. Ltd., Mumbai, 2004. 2. Kevin Lane Keller, “Strategic Brand Management”, Prentice Hall, 2nd Edition, 2006 3. Sengupta S, “Brand Positioning”, Tata McGraw Hill, New Delhi, 2006. REFERENCES: 1. K.S.Chandrasekhar, “Product Management-Text and Cases”, Himalaya Publishing House, 1st Edition, 2002. 2. S.A.Chunnawala, “Product Management”, Himalaya Publishing Home, First Edition, 1998

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FTY 221 SOCIAL COMPLIANCE FOR APPAREL INDUSTRY 3 0 0 3 OBJECTIVES:

• To understand the importance of social compliance • To acquire knowledge on international conventions on social compliance • To understand the compliance norms for child labour, labour health and safety and wages • To understand concepts of ethical trading and international compliance

UNIT I 9 hrs Definition: Scope and Need of Social Compliance: Social Compliance - concept, need, benefits for industry, workers, society. Social accountability and Corporate Social responsibility - scope and need. Social Compliance in supply chain management. UNIT II 12 hrs General Norms on Labour and Safety: Conventions on discrimination, forced labour, child labour- Direction and risk in the supply chain. ILO convention on child labour, worst Form of child labour, Hazardous child labour , Environment and climate, health and safety – safety norms and measures to be enforced for safe working Environment., working hours-norms, remuneration-minimum wages Conventions on Acquired Immune Deficiency Syndrome (AIDS) and Gender. UNIT III 8 hrs Health and Environment Compliance: Minimum age Convention, freedom of association, collective bargaining, corruption and bribery – effect and risk in the supply chain. Global Reporting Initiatives (GRI) sustainability reporting guide line. Organization for Economics Co-operation of Development (OECD) guide lines for multi national Discrimination. UNIT IV 9 hrs Wage Compliance: Freedom of association, collective bargaining agreements (C87, C98 – ILO) compensation – norms applicable in India. Working hours – code of conduct. UNIT V 7 hrs Ethical Trading and International Compliance: Ethical Trading Initiative (ETI). Basic code of labour practice. World wide Responsible Apparel Product (WRAP) purposes, Wrap Principle, certification process, SA 8000.

TOTAL: 45 hrs TEXT BOOKS: 1. Rajesh Chhabara, “Social Accountability”, Ava softech Pvt. Ltd., 2005 2. Rebocak Leifziger, “SA 8000: The first decade”, Greech Leaf Publishers, May 2009. REFERENCES: 1. http://www.ilo.org.in. 2. http://www.endchildlabor.com 3. http://www.labour.nic.in 4. http://www.unicef.org 5. http://www.indianchild.com 6. http://www.paycheck.in 7. http://www.sa-intl.org. 8. http://www.saasaccreditation.org.

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FTY 222 APPAREL COLORATION TECHNOLOGY 3 0 0 3 OBJECTIVES:

• To understand fabric preparatory techniques before wet processing. • To acquire knowledge on dyeing techniques for different fibers

UNIT I 9 hrs Preparation: Single stage grey preparation – Enzymatic treatments in grey preparation. Mercerization – Liquid Ammonia treatment. Dye-Fibre Bonds – Surface energy and interfacial effects, Inter-molecular forces. Identification of dyefibre forces, Specific dye–fibre bonds. Mass colouration, Differential dyeable synthetic fibres. Dyeing of Polypropylene, and Acrylic. Optimized dyeing techniques for PET and their blends. Computer colour matching. UNIT II 9 hrs Colouration: Dyeing of garments made of cotton, viscose, polyester-cellulosic blends – Processing of leather garments. Preparatory dyeing and finishing processes of sewing threads, Preparatory and dyeing process of knitted fabrics and coated fabrics – Sequence of processes, machinery types and precautions. UNIT III 9 hrs Printing and Finishing: Developments in garment printing machines – Various practical problems and possible remedies. Developments in finishing machinery – Calenders, Sanforising machine, Back-filling machine, raising, brushing, damping, maintenance schedule for above machinery. Shop floor problems and possible remedies in finishing department. UNIT IV 9 hrs Foam Finishing: Properties of foam – Blow ratio – foam stability – method of application – foam finishing recipes – Simultaneous dyeing and Resin finishing of cotton – crease recovery finishing. Durable flame retardant finishes for cellulosic fabrics and polyester cellulosic blends – Assessment of flammability characteristics. UNIT V 9 hrs Bio-Processing: Application of enzymes in Textile Chemical processing – Mechanism of enzyme reactions – Bio-scouring and Biobleaching and the other combined processes – Enzymatic decolourisation of denim fabrics – Bio-polishing and Biofinishing – Bio-technology in textile effluent treatment plants – Developments of new fibers using bio-technology.

TOTAL : 45 hrs TEXT BOOKS : 1. Peters A.T. and Freeman H.S., “Physico-Chemical Principles of Colour Chemistry”, Blackie, 1995. 2. Shah H.S. and Gandhi R.S., “Instrumental Colour Measurements and Computer Aided Colour Matching for Textiles”, Mahajan Book Distributors, Ahmedabad, 1990. REFERENCES : 1. Allan Johnson, “The Theory of Colouration of Textiles”, SDC (second edition), 1989. 2. Wyszecki G., and Stile W.S., “Colour Science, Concept and Methods, Quantitative Data and Formulae”, John Wiley and Sons, New York, 1982. 3. Bilmeyer F.W., and Saltzman M., “Principles of Colour Technology”, John Wiley and sons, New York, 1981.

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ELECTIVE – VI (Semester VIII)

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GSS101 PROFESSIONAL ETHICS 3 0 0 3 OBJECTIVES

• To create an awareness on Engineering Ethics • To instill Moral and Social Values and Loyalty • To understand the professional rights of oneself

UNIT I 9 hrs

Engineering Ethics and Theories: Definition, Moral issues, Types of inquiry, Morality and issues of morality, Kohlberg and Gilligan’s theories, consensus and controversy, Professional and professionalism, moral reasoning and ethical theories, virtues, professional responsibility, integrity, self respect, duty ethics, ethical rights, self interest, egos, moral obligations etc., UNIT II 9 hrs

Social Ethics and Engineering as Social Experimentation:Engineering as social experimentation, codes of ethics, Legal aspects of social ethics, the challenger case study, Engineers duty to society and environment, Gandhian Principles of corporate trusteeship. UNIT III 9 hrs

Safety : Safety and risk – assessment of safety and risk – risk benefit analysis and reducing risk – the Three Mile Island and Chernobyl case studies. Bhopal and tragedy. UNIT IV 9 hrs

Responsibilities and Rights of Engineers: Collegiality and loyalty – respect for authority – collective bargaining – confidentiality – conflicts of interest – occupational crime – professional rights – employee rights – Intellectual Property Rights (IPR) – discrimination. UNIT V 9 hrs

Global Issues and Engineers as Managers, Consultants and Leaders: Multinational Corporations – Environmental ethics – computer ethics – weapons development – engineers as managers – consulting engineers – engineers as expert witnesses and advisors – moral leadership – Engineers as trend setters for global values, IT Industry (cultural aggression)

TOTAL: 45 hrs TEXT BOOKS :

1. Mike Martin and Roland Schinzinger, “Ethics in Engineering”. (2005) McGraw-Hill, New York.

2. John R. Boatright, “Ethics and the Conduct of Business”, (2003) Pearson Education, New Delhi.

3. Bhaskar S. “Professional Ethics and Human Values”, (2005) Anuradha Agencies, Chennai.

REFERENCES :

1. Charles D. Fleddermann, “Engineering Ethics”, 2004 (Indian Reprint) Pearson Education / Prentice Hall, New Jersey.

2. Charles E. Harris, Michael S. Pritchard and Michael J Rabins, “Engineering Ethics – Concepts and cases”, 2000 (Indian Reprint now available) Wadsworth Thompson Learning, United States.

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GSS105 ENTREPRENEURSHIP DEVELOPMENT 3 0 0 3

OBJECTIVES: • To study the factors affecting Entrepreneurship growth and their problems. • To understand the importance of Entrepreneurial Development programmes. • To study the projects identification, selection and formulation • To understand the role of government in entrepreneurial development • To understand the basis of intellectual property rights in India.

UNIT I 9 hrs Entrepreneur –Entrepreneurship and economic development – its importance – Entrepreneur Qualities, nature, types, traits of entrepreneur. Similarities and differences between entrepreneur and manager – factors affecting entrepreneurship growth-Problems of entrepreneurs UNIT II 9 hrs Entrepreneurial promotion: Motivation: Theories and factors – Entrepreneurial development programmes – need, objectives, phases and evaluation - Training and developing - occupational mobility - factors in mobility - Role of consultancy organizations in promoting entrepreneurs. UNIT III 9 hrs Project Management: Project identification and selection – project formulation – Report preparation – evaluation: marketing - technical and financial. UNIT IV 9 hrs Role of government in entrepreneurial development – District Industry Centre and its role – Government incentives – financial and non-financial – Sectoral reservation for SSI and tiny sector. UNIT V 9 hrs Property-definition and ownership-kinds of property-types of intellectual property-patent-trade marks – industrial design-need for protection for IP-WIPO and its activities-TRIPS Agreement-evoluation of IPR in India.

TOTAL - 45 hrs TEXT BOOKS:

1. Entrepreneurial Development by S S Khanka, S. Chand and Co: 2008 ISBN: 81-219-1801-4 2. Intellectual Property Rights Text and Case, by Dr. R. Radhakrishnan and Dr. S. Balasubramanian, Excel Books – 2008, ISBN: 978-81-7446-609-9 REFERENCES:

1. Vasanth Desai “Dynamics of Entrepreneurial Development and Management” Himalaya Publishing House. 2. N.P.Srinivasan and G.P. Gupta “Entrepreneurial Development” Sultanchand and Sons. 3. P.Saravanavelu “Entrepreneurship Development” Eskapee publications. 4. S.S.Khanka “Entrepreneurial Development” S.Chand and Company Ltd., 5. Satish Taneja, Entrepreneur Development ; New Venture Creation 6. www.iprventure.com,

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GSS106 GOVERNANCE IN INDIA 3 0 0 3 UNIT – I 9 hrs

Constitution: Constitution of India – Objectives enshrined in Preamble, fundamental rights and duties, directive principles of state policy – Union executive, legislative and judiciary – state governments – Federal features and unitary bias-Different types of governments in the world.

UNIT – II 8 hrs

Legislature and Judiciary: Parliament – Lok Sabha and Rajya Sabha – Legislative procedure – Union judiciary – State legislature – State judiciary – Parliamentary democracy.

UNIT – III 9 hrs

Central Political Executive: Roles of President, Vice President, Prime Minister, Council of Ministers, Cabinet Committees – Role of Central Secretariat – Boards and Commissions – Ministries and Departments.

UNIT – IV 9 hrs

State Administration: Roles of Governor, Chief Minister, Council of Ministers, State secretariat – Administration of law and order – District administration – Panchayati Raj – Municipal administration – Autonomy of local bodies.

UNIT – V 10 hrs

E – Governance: Overview – E-governance evolution – Global trends – Models of digital governance – E-Readiness – Infrastructural needs – Evolutionary stages in E-governance – NICNET – CARD project – Computerization of urban local bodies – E-governance in secretariat – Land records management software – IT in Indian judiciary – Rural e-seva.

TOTAL: 45 hrs TEXT BOOKS: 1. Vishnoo Bhagwan and Vidya Bhushan, “Indian Administration”, S-Chand and Co., 2005.

2. C.S.R. Prabhu, “E-Governance - Concepts and Case Studies”, Prentice-Hall of India 2005. (for Unit-V only)

REFERENCES: 1. M. Laxmikanth, ‘Public Administration’, 5th edition, 2009. 2. www.india.gov.in, National portal of India. 3. Kiran Bedi and others, “Government @ net”, Sage Publications, New Delhi 2001. 4. www.nisg.org, ‘Architecting e-government’ website of National Institute of Smart Government.

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GSS107 INDIAN ECONOMY 3 0 0 3

OBJECTIVES:

• To understand the fundamentals of Macro Economics and National Income of India. • To study the importance of planning and economic growth in India. • To understand the importance of infrastructural development in the economy. • To know the causes of unemployment and different employment schemes for educated and

uneducated. • To study the basis of Indian Banking system and its importance.

UNIT – I: 9 hrs

Fundamentals of Macro-economics: Economics – economic activity -factors of production – factor income and circular flow of income. Concept of national income- definition of GNP, GDP – National Income of India - Growth and structure. UNIT – II : 9 hrs

Planning and Economic Growth: Indian planning – Planning commission – Five year plans – objectives and achievements – Industry policies – public sector understandings – private sector – SSIs Recent trends in SSIs, SME and SEZ – Economic reforms and globalization – IT and IT enable service in India. UNIT – III : 9 hrs

Infrastructure of Indian Economy: Infrastructure and Economic development – power and energy – Transport: road, rail –and civil aviation. Urban infrastructure – international transport system – sea and air. UNIT – IV : 9 hrs

Labour and Unemployment: Population –size and growth – demographic transition – age composition – education and its issues. Employment – nature of unemployment its causes – Employment schemes for educated and uneducated. UNIT - V: 9 hrs

Indian Banking System and Credit: Reserve Bank of India: its basic functions – commercial banks – its functions: deposit acceptance and lending – types of deposit – types of loans and advances –other banking services.

TOTAL-45 hrs TEXT BOOKS:

1. Indian Economy by Ruddar Datt and KPM Sundaram, S. Chand and Co – 2004 ISBN: 81-219-2045-0

2. Macro Economics by H.L. Ahuja, S. Chand and Co – 2008, ISBN: 81-219-0433-1 REFERENCES:

1. Indian Economy, Mishra, S. K. and V. K. Puri; Himalaya Publishing House, 2003, 21st revised edition.

2. Economics by Samuelson and Nordhaus, Tata – Mecrew Hill, 2007.

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