Syllabus_TXE_Sem 3-8.doc

7/24/2019 Syllabus_TXE_Sem 3-8.doc

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VISION

To build a rich intellectual potential embedded with

inter-disciplinary knowledge, human values andprofessional ethics among the youth, aspirant of

becoming engineers and technologists, so that they

contribute to society and create a niche for a

successful career.

MISSION

To become a leading and unique institution of higher

learning, offering state-of-the-art education, research

and training in engineering and technology to

students who are able and eager to become change

agents for the industrial and economic progress of

the nation. To nurture and sustain an academic

ambience conducive to the development and growth

committed professionals for sustainable

development of the nation and to accomplish its

integration into the global economy.

UNDER-GRADUATE &UNDER-GRADUATE &

POST-GRADUATE PROGRAMMESPOST-GRADUATE PROGRAMMES

inn

TEXTILE TECHNOLOGYTEXTILE TECHNOLOGY

COU

RSE

CURRICULUM

Dr. B R AMBEDKARDr. B R AMBEDKARNATIONAL INSTITUTE OF TECHNOLOGYDeeme Uni!er"i#$%Deeme Uni!er"i#$%

P.O. REC 'ALANDHAR-))*P.O. REC 'ALANDHAR-))*P+,ne *-/01*2*-*/ F34 *-/01*2*/ 5e6"i#e+,ne *-/01*2*-*/ F34 *-/01*2*/ 5e6"i#e 777.ni#8.39.in777.ni#8.39.in
http://www.nitj.ac.in/http://www.nitj.ac.in/http://www.nitj.ac.in/http://www.nitj.ac.in/


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QUALITY POLICY

Develop technical human resource of

excellence suitable for global requirements.

Ensure good quality academic and industrial

research programmes in different areas of

engineering and technology.

enerate industry-institute synergy for

shaping technical education to meet the

requirement of industry.


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PREFACE

!ith upgradation of "egional Engineering #ollege, $alandhar into %ational &nstitute of Technology $alandhar'Deemed (niversity), the academic programmes are to be regulated in accordance with the stipulations made in%ational &nstitute of Technology rules, *++*. ccordingly, the institute requires to restructure academic programmesaround the credit system in which ark ystem of evaluation is replaced by /etter rade ystem and 0ear- wisepassing makes way for course-wise passing.

ttempts have been made to prepare a odel #urriculum and syllabi for four year under-graduate and post-

graduate programmes in Textile Technology. The exercise was handicapped with the following difficulties1

i) &t is interdisciplinary in character involving considerable inputs from other disciplines.ii) &t depends on advances in science, technology and materials

&t is really challenging to evolve a common programme for this discipline that meets the need of national andinternational industries and research establishments. 2owever, with the rich experience of successfulexperimentation, the task of development of a model curriculum could be possible.The suggested curriculum is based on philosophy presented by the Dean 'cademic 3rogrammes) during 4 th

enate meeting of the institute held on $anuary 56, *++4. it possesses the following features1

i) The suggested curriculum is in conformity with &&T7TE norms with emphasis on analysis and design ofindustrial processes required to work in control environment.

ii) The graduates turned out have to be acceptable by national and international industry and academic 7research establishments.

iii) The programme has to be forward looking in context of the rapid changing scenario of science and technologywhich provides a proper balance in teaching of basic sciences, social sciences and management, engineeringsciences and technical arts, technologies and their applications.

iv) #ore sub8ects have been selected to cover all those, which are essential for Textile Technology graduates.v) The curriculum presents flexibility so that new programmes started with reasonable sources can be managed

with a scope of further updating as the resource position improves.

The above features have been achieved by offering a number of electives courses both departmental and open innature.& take this opportunity to express my deep appreciation to members of the enate for their valuable suggestionsand critical comments in finali9ing the curriculum and 3rofessor 3ramod ehta, Ex-Director, %&T $alandhar for

his initiative and direction. & am also grateful to r. 3 :swal, #hairman ;ardhman roup and 0arn


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CONTENTS

r. %o. Title 3age no.

5 < Tech in Textile Technology

a. #ourse tructure 5b. Teaching = Evaluation cheme *-4

c. #ourses offered to >irst 0ear ?-5@

d. #ourses offered by the Department of 5A-6@

Textile Technologye. #ourses offered by other departments 6A-4B f.

#ourses offered to other departments 46

* Tech in Textile Engineering = anagement

a. Teaching = Evaluation cheme 4?

b. #ore ub8ects 4@-?*

c. Electives ?B-?@


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C,:r"e S#r:9#:re

Seme"#er

Le9#:reC,:r"e"

L T P

5ee;luids

/ab '+ + *) 5

2-5+*Engg Eco = >in.gmt.

'B 5 +) 6

E-5+*Engineeringraphics

'* + +) *

E-5+6Engineeringraphics /ab

'+ + 6) *

+? 5C +6 5+ B5 *?

III

TT-*+5Textile achines= 3rocesses

'B 5 +) 6

TT-*+B%atural >ibres

'B 5 +) 6

TT-*+4

0arnanufacture-&'B 5 +) 6

TT-*+C

Textile Design'B 5 +) 6

-*453robability andtatistics'B 5 +) 6

E-*45inematics ofachines'B * +) 4

TT-**5Textile achinesand 3rocesses/ab'+ + *) 5

TT-**4

0arnanufacture-&/ab'+ + *) 5

TT-**CTextile Design/ab'+ + *) 5

+? 5@ +C +? B5 *@

I=

TT-*+*3roperties of>ibre

'B 5 +) 6

TT-*+6an made>ibres'B 5 +) 6

TT-*+?0arnanufacture-&&'B 5 +) 6

TT-*+@>abricanufacture-&'B 5 +) 6

E#-*4@DigitalElectronics=icroprocessorrchitecture'B 5 +) 6

32-*+6aterial cienceand Engineering'B 5 +) 6

TT-***Textile >ibre /ab'+ + *) 5

TT-**?

0arnanufacture-&&/ab '+ + *) 5

E#-*C@DigitalElectronics /ab'+ + *) 5

32-**6aterial cienceand Engineering/ab '+ + *) 5

+? 5@ +? @ B* *@

=

TT-B+5>abricanufacture-&&'B + +) B

TT-B+BnittingTechnology

'B + +) B

TT-B+4Textile #hemical3rocessing-&

'B + +) B

TT-B+C

Textile Testing-&

'B + *) 6

TT-BElective-&

'B + +) B

-*++%umericalethods'B 5 +) 6

TT-B*5>abricanufacture /ab

'+ + *) 5

TT-B*4Textile #hemical3rocessing-& /ab

'+ + B) *

+? 5@ +5 +C *? *B

=I

TT-B+*

Textile Testing-&&

'B + +) B

TT-B+6Textile #hemical3rocessing-&&

'B + B) 6

TT-B+?Theory of Textiletructures'B 5 +) 6

:#-B:pen Elective-&

'B + +) B

TT-B*+nitting /ab'+ + *) 5

TT-B**

!eaving /ab

'+ + *) 5

TT-B++

&ndustrial3ractical Training

'+ + +) @

+6 5* +5 +C *+ *6

=II

TT-6+53rocess #ontrolin Textiles

'B + +) B

TT-6+BFuality #ontrol inTextile &ndustry

'B + +) B

TT-6+4echanics ofTextile 3rocess

'B + +) B

2-6452uman"esourceanagement'B + +) B

TT-6Elective-&&

'B + +) B

:#-6:pen Elective-&&'B + +) B

TT-6*5

Textile Testing-&&/ab

'+ + *) 5

TT-6++3ro8ect'3hase-&)

'+ + 6) *

+? 5@ ++ +? *6 *5

=III

TT-6+*ill anagementandaintenance.'B + +) B

TT-6+6armentTechnology

'B + +) B

TT-6Elective-&&&

'B + +) B

TT-6Elective-&;

'B + +) B

TT-6++3ro8ect '3hase-&&)'+ + 5?) @

+6 5* ++ 5? *@ *+


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T,#3< 1

DE: 4 @ 3C = 12 C HM : 2 @ 4 + 1* @ 3 = 11C from 3-courses OE : 1 @ 3 + 1* @ 3(HM) = 6C DC : 97, ! : 22, E"! : 47


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Te39+in> 3n E!3


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T+ir Seme"#er

S


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Fi@#+ Seme"#er

S


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Se!en#+ Seme"#er

S


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COURSE DESCRIPTIONS

C,:r"e" ,@@ere 6$ #+e De3r#men# ,@ Te4#i1 Different types of finishes provided to fabric according to end use.G3rmen# m3n:@39#:rin>1 arment industry and general nomenclature of garment industry. ainprocesses required for conversion of fabric into finished garment.

B,,;" Re9,mmene

5. ohl E 3 and ;alensky, HTextile Science,I *nd Ed., #


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silk. icro and macro structure of fibres. Effect of oxidi9ing agent, reducing agent, acid, alkali and wateron the structure, physical and chemical properties of fibres. ssessment of degradation in fiber structure.3roperties and uses of wool and silk. #orrelation of structures with properties. &ntroduction to ramie,hemp, coir and pineapple fiber.P,oster , HManual of Cotton S'inningI, ;ol. & G&;, The Textile &nstitute, anchester '5A4@).6. alhotra ", HS'inning of Man Ma!e "ibres an! $len!s on Cotton S'inning SystemI, The

Textile ssociation, umbai '5A@A).4. hare ", HElements of $lo)room* Car!ing an! ra)frameI, ai book #entre, umbai '5AAA).

TT-/*? Te4#i


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A6",r6en# F36ri9"1 ethod of preparation, features and uses of Diamond and Diaper !eaves, 2oneycomb weaves, 2uck-a-back and ockleno weaves.Cree 5e3!e1 pecial feature, construction of the weave, method of preparation of its derivatives anduses.Be@,r C,r 7e3!e"1 ethod of construction, features, cross-sectional view, derivatives and uses.S#rie 3n C+e9; 5e3!e"1 >eatures, criteria for selection of weaves for combination, rules governingthe 8oining of different weaves. ethod of preparation and uses.C,


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6. tudy of carding machine with technical details.4. tudy of gearing mechanism calculation of the speed of different organs of carding machine.?. #alculation of draft between different 9one and production of carding machine.C. tudy of card settings for different fibre lengths and types.@. aintenance and overhauling of carding machine.A. tudy of distribution of fibrous waste in a carding machine.5+. tudy of the K%E3 -#:(%TL in a card.55. tudy of drafting arrangement and top roller weighting system of draw frame machine.

5*. #alculation of the total draft and its distribution in draw frame machine.5B. Effects of break draft and roller settings on sliver uniformity.56. easurement of nip-load pressure, roller eccentricity and shore hardness of top roller drafting

rollers.54. aintenance and overhauling of draw frame machine.

TT-//? Te4#iactors influencing results of tensile experiment. Expressing results. Differentexperimental methods. Effect of variability. Elastic recovery. Effect of test conditions on recovery. #yclictesting. >ibre fracture and fatigue. Time effect. #reep and stress relaxation. &ntroduction to dynamic


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testing and fatigue. #oncept of models. elvin and axwell model.


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5. ;aidya , H&ro!uction of Synthetic "ibresI, 5stEd., 3rentice 2all of &ndia, %ew Delhi '5A@@).*. HManufacture! "ibre TechnologyI, Ed. ; < upta and ; othari, 5 stEd., #hapman and 2all,

/ondon, 5AAC.B. ark 2 >, tlas and #ernia E, HMan Ma!e "ibre Science an! TechnologyI, 5stEd.,;ol. 5, *,

B, cience 3ublishers, %ew 0ork '5A?C).6. acintyre $ E, HSynthetic "ibresI, !ood head >iber cience eries, ( '*++B4. HTextile "ibers/ e-elo'ments an! Inno-ationsI, Ed ; othari, &>/ 3ublications, %ew Delhi

'*+++).

TT-/*0 Y3rn M3n:@39#:re - II 2 * )

In#r,:9#i,n #, "+,r# "#3 "innin> Pr,9e"" >unction and mode of operation of ring frame, role of drafting system, yarnguiding devices, forces acting between ring and traveler, yarn tension variation, balloon tension atmaximum diameter, tasks of traveller, limiting speed, classification, form of traveler, traveler mass andmaterial, different ring-traveller combinations, fiber lubrication, running on new-ring, winding process,cop building, cylinder and conical tip, spinning geometry, causes of end breaks, numerical problems,norms, performance assessment. achine and labour productivity. /atest developments includingcompact spinning.N,n-9,n!en#i,n3< "innin> r,9e""e"1 3rinciple of open end spinning, rotor spinning, chief organsand their functions, yarn properties in comparison with ring-spun yarn, principle of friction spinning,function of chief organs, yarn properties and comparison of Dref-&& and Dref-&&& friction spinning

machines, basic principle to air 8et spun yarn, functions of chief organs, yarn properties, numericalproblems, norms, performance assessment. achine and labour productivity.

B,,;" Re9,mmene5. lein !, HManual of Textile TechnologyI, The Textile &nstitute '5AA4).*. hare ", HElements of CombingI, ai book center, umbai '5AAA).B. hare " HElements of Ring "rame an! oublingI, ai book #entre, umbai '*+++).6. alhotra ", HS'inning of Man Ma!es an! $len!s on Cotton SystemI, The Textile ssociation of

&ndia, umbai '5A@A).4. #hattopadhyay " and "engasamay ", HS'inning/ ra)ing* Combing an! Ro-ingI, %#(TE-3ilot

3rogramme '5AAA).

TT-/* F36ri9 M3n:@39#:re I 2 * )

5inin> :b8ectives, types of packages, types of winding machines, uniform build up of cones,echanical and electronic type yarn clearer. 0arn tensioners1 dditive, multiplicative, combined andcompensating type. 3atterning1 "easons and remedies. 0arn fault classifying systems. :b8ectives, conditions for warping, comparison of beam warping with sectional warping, basic

features of warping machine, different types of creels, reeds, leasing systems. /atest developments.achine and labour productivity. %orms. 3erformance assessment and calculations.


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Siin> :b8ectives, classification of si9ing methods and si9ing machines. >eatures of si9ing machine,machine elements, si9ing ingredients, si9e preparation, control points, principle of different nonconventional si9ing techniques. /atest developments. achine and labour productivity. %orms.3erformance assessment and calculations.Dr37in> in &mportance, different ways to do it, standard norms. /atest developments.5e3!in> 2istory of weaving with manual and automatic loom, and modern loom revolutions. :verallconcept about looms and its elements. Different motions of looms1 3rimary, secondary and auxiliarymotions.

S+ein> Different types of shedding with advantage and disadvantages, geometry of shedding,importance of bending factor, reed and reed counting systems, tappet shedding and its limitations,positive and negative shedding.Pi9;in> Types of conventional picking1 over picking, under picking and parallel picking. #alculation ofshuttle velocity and energy of picking, picking force. Different picking accessories and their functions.3icking timing such as late picking and early picking, reasons of false picking and shuttle fly.S


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6. To study the building motion in speed frame.4. To study the differential motion of speed frame and calculation of bobbin speed.?. #alculation of break draft constant, draft constant and twist constant and production of speed

frame.C. To study the influence of machine and process parameters on roving unevenness 'mill based

study).@. To study the drafting, twisting and winding 9one in ring frame.A. To study the building motion in ring frame.

5+. #alculation of draft constants, twist constant, coils per inch and production of ring frame.55. To ascertain the effect of break draft and total draft on yarn unevenness and strength 'mill basedstudy).

5*. Estimation of spinning tension as a function of traveller weight, yarn count and balloon height'mill based study).

5B. To perform various settings and maintenance operation on ring frame such as1

"ing rail levelling

pindle gauging

pindle eccentricity

/appet eccentricity

56. To study the effect of shore hardness on yarn quality 'mill based study).54. To study the influence of spindle speed and traveller weight on hairiness.5?. tudy the chief organs, mechanism and calculations of open end and friction spinning machines.5C. To study the timing diagram of a comber.5@. To study the function of top comb and its depth of penetration with reference to noil extraction

and fractionating efficiency 'mill based study).5A. To study the nature of movement of nipper assembly.*+. To study the mechanism of detaching roller drive and the nature of its motion.*5. To study the effect of type of feed and detachment setting on noil percentage and fractionating

efficiency.

TT- 2* F36ri9 M3n:@39#:re II 2 * * 2

Le#-,@@ S$"#em1 !arp and cloth control, different types of let-off systems, control of tension variation.T3;e-:1 Types of take-up and their mechanisms, control of pick density, calculation related to it.53r S#,1 Types of warp stop motions and their functioning.5e@# S#,1 !eft stop mechanisms with advantages and disadvantages.5e@# Rein> m,#i,n1 !orking mechanism of multiple box motions '*x5 and 6x5).D,66$ 3n '39:3r1 cope of dobby, different types of dobby and their mechanism pegging systemas per design of weave, paper dobby. cope of 8acquard, working of different types of 8acquards andcard punching methods.

B,,;" Re9,mmene5. ark " and "obinson T #, H&rinci'les of +ea-ingI, The Textile &nstitute, anchester '5A@?).*. Talukdar , rirammulu 3 and 8gaokar D


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Kni##in>1 3rocess, comparison of weaving and knitting, warp and weft knitting, classification of weftknitting machines.5e@# Kni##in> E Devices for patterning in circular knitting machine Electronic needle selection.

S9ien9e ,@ Kni##in>1 #oncept of loop length, knitting tension, spirality, production calculations, fabricfaults in weft knitting.53r Kni##in>1 achines and mechanism. tudy of let-off and take up mechanism. /apping diagrams.3roduction calculations.L3#e"# e!e1 Types of singeing, details of each method, drawbacks and advantages.De"iin>1 :b8ect, types, method details and mechanism of removal of starch. Efficiency of desi9ing.S9,:rin>1 :b8ectives, mechanism of removal of impurities, recipe and controlling parameters. couringof dyed textiles, evaluation of scouring efficiency. couring of natural, man made and blended textiles.B:b8ectives of bleaching. hypochlorite, peroxide, chlorite and peracetic acid bleaching. >ield

of application. #ontrolling parameters and mechanism. Efficiency of bleaching.Mer9eri3#i,n1 :b8ectives, mechanism related to various physical and chemical changes in cottonduring mercerisation. 3rocess parameters and operation. #austici9ation. ,@ #e4#i


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TT-2*? Te4#i&.Testing of wool and man made staple fibers, measurement of fiber friction and crimp,Te"#in> ,@ Y3rn0arn numbering and conversion system, twist in continuous filament, spun and pliedyarns, tensile properties, various type of measuring instruments and their working principles, factorsaffecting tensile properties, elastic recovery, effect of impact loading and fatigue behaviour, yarn friction.Evenness testing of yarns, nature and causes of irregularities, principles and methods of evennesstesting, evaluations and interpretation of evenness results, concept of index of irregularity, variancelength curves and spectrogram analysis, yarn faults, classification, utility and principle of different typesof measuring instruments. 0arn hairiness, principle of measurement, measuring instruments. Test forfilament and textured yarn.

B,,;" Re9,mmene

5. aville < 3, H&hysical Testing of TextilesI, !oodhead 3ublishing /td, #ambridge '*++*)*. HTextile >ibers1 Developments and &nnovationsI, Ed ; othari, &>/ 3ublications, %ew Delhi

'*+++).B.


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55. Determine bending rigidity by '2E"T) loop method.5*. Determine the /ea #..3 by /ea #3 Tester and utosorter and compare the results.5B. Determine the percentage crimp and corrected count with the help of crimp Tester.56. Determine the crimp rigidity by using hot crimp contraction method.54. #haracteri9e a woven fabric with respect to its dimensional properties.

a. thread densityb. yarn number

c. yarn crimpd. weave

e. cover factorf. areal density

g. skewnessh. thickness

5?. Determine the tensile strength and elongation of a woven fabric and compare the load-elongation curve with non-woven and knitted fabric.

5C. Determine the tear resistance of a fabric using Elmendorf Tear Tester.5@. Determine the bursting strength of a fabric on a hydraulic bursting tester.5A. Determine the abrasion resistance and pilling resistance of a fabric.*+. Determine the crease recovery of fabric and observe effect of loading time and recovery time on

crease recovery.*5. Determine the Drape coefficient of a fabric sample.**. Determine the compression property of a fabric 'thickness).*B. Determine the ir permeability, water permeability and water repellency of a fabric.*6. Determine the thermal resistance of a fabric.*4. Determine the stiffness of a fabric.*?. >ibre Testing by 2;&*C. #lassimat fault analysis 'yarn fault classifying system)*@. Determine moisture content7regain of a fibre sample by hot air oven method.*A. Determine crimp 'crimp N) of a given manmade fibre sample.B+. Determine fibre fineness of a manmade fibres7filaments by1

whole fibre method

vibroscope

B5. Tensile properties of a staple fibre by1

vibromat

&nstron79wick (T Determine stress relaxation and creep recovery of fibre.

TT- 2 N,n7,!en Te9+n,$ 2 * * 2

In#r,:9#i,n2istorical Development, Definitions of nonwovens, #lassification of %on-!oven fabrics,Development of nonwoven industry and future perspective.R37 m3#eri3ibre prepration, Dry laying, wet laying, 3arallel laying, #ross laying andrandom laying methods, punlaying, elt blowing, , fabrics.Me9+3ni93< B,nin>%eedle punching technology, needle punching machine, >elting needles, needleclassification and their specifications, Developments in needle punching technology, >actors affectingthe properties of needle punched fabrics, punlacing technology, factors affecting the spunlaced fabric,titch bonding technique.C+emi93< B,nin> dhesive Thermal bonding techniques, rea bonding, 3oint bonding and their properties.Fini"+in> ,@ n,n7,!en @36ri9" hrinkage, #alandering, 3ressing, plitting, rinding, !ashing,Dyeing, 3rinting, oftening, #oating and /aminating.A ,@ N,n7,!en @36ri9" tandards and methods of testing nonwoven fabrics


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B,,;" Re9,mmene

5. /unenschloss $ and lbrecht !, H5on0+o-en $on!e! "abricI, Ellis and 2orwood /td., ( '5A@4)*. lbrecht !, >uchs 2 and ittelmann, H5on)o-en "abricsI, !iley-;#2 !einheim '*++B).B. rstina ; and >e8gal >, H5ee!le 'unching textile technologyI, Elsevier '5AA+).6. rcma "adco, HManual of non)o-ensI, Textile Trade 3ress, ( '5AC5)4. ulra8ani /, H$oo% of &a'ers of International Conference on 5on)o-ensI, The Textile &nstitute,

( '5AA*)

TT-22 M:


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S#r:9#:re r,er#$ reelder " and "ousseau " !, HElementary &rinci'les of Chemical EngineeringI !iley and

ons, %ew 0ork '5AAA).

TT 2/ F36ri9 M3n:@39#:re L36,r3#,r$ * * /

t least 5+ experiments are to be performed by each student5. tudy of the motion transmission system in winding machine.*. tudy of the effect of slub catcher, yarn tensioner and yarn guide on package formation.B. tudy of 3ackage stop motion in cone winding machine.6. #alculation of winding speed on grooved drum winding system and study of anti-patterning

system incorporated to it.4. tudy of precision winding machine and mechanism of package building.?. tudy of the motion transmission system in 3irn winding machine.C. #alculation of winding speed and traversing speed of 3irn winding machine.

@. tudy of the sectional working machine and plan the width of a section according to the givenstriped fabric keeping in view the pattern.


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A. To study the passage of yarn on a si9ing machine and the features of various parts7 mechanismof the si9ing machine.

5+. To select the proper reed and heald for a weaverLs beam keeping in mind the beam, loom si9eand fabric construction.

55. tudy of shedding mechanism of shuttle loom and cam positioning with respect to loom cycle.5*. tudy of picking mechanism. 3icker movement in relation with crank shaft rotation and

calculation of average velocity of shuttle.5B. tudy of sley movement, construction and calculation of sley eccentricity.

TT 2/ Te4#i I L36,r3#,r$ * * 2 /

t least 5+ experiments are to be performed by each student

5. couring of cotton goods

*. couring of polyester goods

B. couring of 37# blended goods

6. couring of wool fibre

4. Degumming of silk

?. / 3ublications, %ew Delhi

'*+++).

TT- 2*) Te4#i-II 2 * 2 )


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D$ein> ,@ 6 S#$Types, mechanism of transfer in each type and machineries. Transfer printing ofnatural, man made and blended textiles.Me9+3ni93< Fini"+e"3hysical and chemical softening processes, selection of chemical and evaluationof softening. #alendering - its types, construction and function of various calendering m7cs. anfori9ing -

method, mechanism and machineries involved. Evaluation of sanfori9ing.F:n9#i,n3< @ini"+e" 1 3roblem of creasing, anti-crease finish on cotton. #hoice of chemical, catalyst andprocess parameters. Drawback and advantages associated with use of various anti-crease chemicals.easures to reduce release of formaldehyde. !ater repellency and water repellent finishes on cotton.Evaluation of water repellency.Ien#i@i93#i,n ,@ $e"1 &dentification of dye on dyed natural and man made textiles.

B,,;" Re9,mmene5. iles / ! #, HTextile &rintingI, Dyers #ompany 3ublication Trust,


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TT-2*0 T+e,r$ ,@ Te4#ir3#i,n1 &deal migration, 3arameters affecting migration, characteri9ation of migrationbehaviour, mechanism of migration in single and plied structure.

S#r:9#:r3< Me9+3ni9"1 Extension of yarn under small load. nalysis of tensile forces of yarn understress. 3rediction of breakage, %ature of rupture for continuous filament yarn. Extension and breakageof spun yarn1 Traditional view and approach by 2earle and E5-heikh.Bemen# 2 * * 2

T+e En!ir,nmen# &ts definition, the impact of human beings upon the environment, biosphere,hydrologic cycle, nutrient cycle. &mprovement of environment quality, role of environmental engineer.Environment lawsEn!ir,nmen# ,


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B. ilbert, Intro!uction to En-ironmental Engineering an! ScienceI, 5stEd., 3rentice 2all of &ndia,%ew Delhi '5AA4).

6. "ao %, HEn-ironmental EngineeringI, *nd Ed., Tata craw-2ill, %ew Delhi '5AAB).4. 3uneet ohan, HEn-ironmental Stu!iesI, 5stEd., un &ndia 3ublications, %ew Delhi '*++6).

TT2/* Kni##in> L36,r3#,r$ * * /

t least 5+ experiments are to be performed by each student5. To study the path of yarn through plain knitting machine.*. To study the different knitting elements including the cam system.B. To study the driving mechanism of plain knitting m7c.6. To study the cloth take-up mechanism of plain knitting m7c.4. 4. To study the rib knitting m7c including arrangement of dial and cylinder needles, cam system

and driving mechanism.?. To study the &nterlock knitting m7c including arrangement of dial and cylinder needles, cam

system and driving mechanism.C. To study cam system of ; - bed rib knitting m7c.@. To study driving mechanism of ; - bed rib knitting m7c.A. 3reparation of >abric sample 'rib, circular, half cardigan and full cardigan) in ;-bed rib knitting

machine.5+. To study the effect on loop length with the change in cam setting in flat knitting machine.55. To study the effect of variation in yarn input tension on the loop length in ;-bed rib flat knitting

machine.5*. To study plain, rib and &nterlock knitted fabrics 'course per inch, wales per inch, loop length etc.)

TT-2// 5e3!in> L36,r3#,r$ * * /

t least 5+ experiments are to be done15. tudy of take up motion and calculation of loom take up constant.

*. tudy of positive let-off system.B. tudy of !arp protection motion 'both loose reed and fast reed).6. tudy of warp stop motion.4. tudy of


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C,m6er 73"#e 9,n#r, 1 pproach, scope, control andoptimi9ation.

C,n#r,< ,@ r,:9#i!i#$ in L,,m "+e1 scope and approach, control of loom speed, efficiency andstops. Fuality of yarn. Expected loom efficiency, loom allocation.F36ri9" :31 cope and approach, control of some specific fabric defects, grey fabricimperfection.S$"#em ,@ Pr,9e"" C,n#r,< in C+emi93< Pr,9e""in>1 cope and approach, norms and standards,:3


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5. /eaf ;, H&ractical Statistics for the Textile In!ustryI, 3art-& and &&, The Textile &nstitute, (.'5A@6).

*. ontogomery D #, HIntro!uction to Statistical :uality ControlI, >ourth Ed., $ohn !iley and ons'sia) 3te. /td., ingapore '*++6).

B. ehta 3 ;, HFuality anagement1 n :verviewI, in PTesting an! :uality Management2, ;ol. 5, Ed.; othari, &>/ 3ublication, %ew Delhi '5AAA).

6. piegel " and tephens / $, HSchaum2s Outlines StatisticsI, Third Ed., Tata craw 2ill, %ewDelhi '*+++).

4. !alpole " E and yers " 2, H&robability an! Statistics for Engineers an! ScientistsI, cillan3ublishing #ompany, %ew 0ork '5A@4).

TT- )* Me9+3ni9" ,@ Te4#i1 echanics of fibre entanglement and hook formation during carding. Theories of carding.Transfer mechanism of fibres. #ylinder load and transfer efficiency. >ibre configuration and estimationof degree of disorder. Effect of different parameters on hook formation.

Dr37 @r3me1 "ole of drawframe on yarn quality and process parameters. 2ook removal in roller drafting.C,m6in>1Theoretical aspects of combing. >ractionation in combing. 3arameters affecting >E& andcombing efficiency.See @r3me1 echanism of package building and twisting in speed frame.Rin> Sinnin>Drives on modern ring frames. 0arn tension in ring spinning. echanics of package building during winding, 3erformance of sensors, plicing and yarn tensionduring unwinding, 0arn tension controlling devices, #one angle and traverse in sectional warping,tretch control in si9ing, 3irn sloughing,5e3!in>1 inematics of sley and heald motion, hed depth and interference factor, hedding camdesign, echanism of picking, huttle retardation and its importance, #auses of pick variation, #loth fellequation, 1 &ntroduction and concept of heat-setting. :b8ective of heat-setting. Different nature of set.2eat-setting behaviour of fibres. ethods of heat-setting. &nfluence of heat-setting parameters onstructure and properties of fibres. ettability and measurement of set.

T,7 9,n!er"i,n1 &ntroduction of Tow to Top conversion. Different methods for tow to top conversion.B:


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Different texturing methods and brief working principles of different texturing methods. 3rinciples of falsetwist texturing. aterial and achine variables and their influence on the structure and properties offalse twist textured yarn. #oncept of air-8et texturing. aterial and process variables in air-8et texturingand their influence on the structure and properties of air-8et textured yarns. Testing and evaluation oftextured yarns. "ecent developments in texturing. ir entanglement process.

B,,;" Re9,mmene5. upta ; < and othari ; , HManufacture! "ibre TechnologyI, #hapman and 2all, /ondon

'5AAA).*. ;aidya , H&ro!uction of Synthetic "ibresI, 5ndEd., 3rentice 2all of &ndia, %ew Delhi '5A@@).B. 2earle $ ! , 2ollick / and !ilson D , H (arn Texturing TechnologyI, !oodhead 3ublishing

/td., ( '*++*).6. oswami < #, artindle $ and cardino > /, HTextile (arns Technology* Structure an!

,''licationsI, !iley-&nterscience 3ublication, %ew 0ork '5AC?).4. ark 2 >, tlas , #ernia E, HMan Ma!e "ibre Science an! TechnologyI, 5stEd.,;ol. 5, *, B,

cience 3ublishers, %ew 0ork '5A?C).

TT- )2 5,,1 cooping, damping, decatising and paper pressing of wool, Testing and Fuality#ontrol.

B,,;" Re9,mmene5. ulra8ani /, H$len!e! TextilesI,


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S+,r# astness criteria of dyed and printed textile. rading and methods todetermine fastness relating to washing, light, perspiration, sublimation and chlorine treatment.E!3$ Development of new continuous and batch machines as well asmodified processes.

Re:9#i,n in 73"#e 73#er 2 * * 2

Prin# 3"#e1 #onstituents and characteristics, thtickeners and its types, function and suitability ofthickener for a specific printing style.

Prin#in> A@#er-#re3#men#"1 &mportance of after-treatment of printed textiles, process and mechanism ofsteaming, curing, ageing and open soaping.Prin#in> Me#+," 2and block, roller and screen printing methods, advantages and drawbacks.3hotoelectric method of screen preparation.Prin#in> S#$1 #oncept, classification, method and mechanism of print transfer. Transfer printing ofpet7cot blends. Transfer printing machineries.Me9+3ni93< Fini"+1 anfori9ing of textiles, ob8ectives, process, mechanism and machineries involved.Evaluation of process efficiency. :b8ects of calendaring, classification, types of calendars and choice ofright calendaring machines.S,@#enin> ,@ #e4#i


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temporary, semi permanent and permanent finishesM evaluation of watter repellency. echanism ofburning of textiles, choice of chemical for all types of flame retartdent finishes, Determination of /:&. oilrelease finish - mechanism of soiling, application of soil, evaluation of soil release efficiency, nti-microbial finishes on natural, man made and blended textiles.

B,,;" Re9,mmene

5. iles / ! #, HTextile &rintingI, Dyers #ompany 3ublication Trust, nin> 2 * * 2

F3"+i,n1 &ntroduction to fashion and apparel design. :rigin of fashion, concept, analysis, trends andcreations.F3"+i,n T+e,rie"1 >ashion of different eras, >rench and reek revolutions, fashion promotion, style-

fad-trends.F3"+i,n De"i>n @:n3men#3irst impression, role of socio- psychological and economical aspects.Di" II L36,r3#,r$ * * /

n independent study regarding testing and analysis of yarn and fabric.

TT-)*/ Miemen# 3n M3in#en3n9e 2 * * 2

L,93#i,n 3n L3$,:# 3lant location and site selection, >actors affecting location, 3lant layout,Different types of layouts, /ayout plan for spinning, weaving and process house.

Air 9,ni#i,nin> 3n +:mii@i93#i,n2umidification systems used in Textile ills, Developments inhumidification systems, 2eat load, #alculations of total heat, air circulation required.


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M39+ine B3#alculation for different machines required for carded and combed yarns, weaving,preparatory and chemical processing.C,"#in> Elements of cost, #ost sheet, #osting the products, conversion cost, cost reductiontechniques, impact of end breaks in ring spinning on productivity and cost.P,7er 9,n":m#i,n Energy consumption in textile machines, easures to reduce powerconsumption.5,r;in> en!ir,nmen#easures of good working environment, Different types of noise and remedialmeasures to minimi9e noise of different departments, terms related to lighting, illumination level required

for different departments, lighting plan for different departments, aterial handling equipments,#lassification of material handling equipments, work load, work assignment, #alculation for workassignment, effect of end breaks on work assignment.M3in#en3n9e M3n3>emen# aintenance systems, aintenance cost, aintenance schedules,aintenance scheduling, Down time management, Down time analysis, ccidents and safetyengineering, >ire prevention and protection.

B,,;" Re9,mmene5. Dude8a ; D, HManagement of Textile In!ustryI, Textile Trade 3ress, hmedabad '5A@5).*. :rmerod , HTextile &ro;ect ManagementI, The Textile &nstitute, anchester ( '5AA*).B. Talukdar , rirammulu 3 and 8gaokar D 1 &ntroduction to pattern making and garment, #onstruction. Different terminologies.Drafting, 3n 1 &ntroduction to cutting room processes, cutting methods and their merit demerits.1 &ntroduction to sewing m7c and its parts, sewing room processes and working details.Different types of sewing m7c and its suitability, Different sewing m7c driving system. ttachment ofsewing m7c, ewing needle and its si9es.Se7in> "#i#9+e" 3n "e3m" #$e"1 titch formation, types of stitches, seam classification, seamgeometry seam strength and slippage, seam puckering. Thread calculation and its consumptionTrimmin> 3n G3rmen# 399e"",rie"1 Definition, types, trimming methodologies and accessoriesapplication.G3rmen# @ini"+in>1 >asteners, thread tucking, care and si9e labeling system, checking, pressing,folding and packing, packing standards for domestic and export markets.:3 #ontrol in pattern making, grading, fabric laying, marking,sewing and finishing, control of garment defects.C,m:#er A1 pplication in pattern making, grading, layplanning, sewing and finishing, computer aided embroidery designs. #oncepts of computer integratedmanufacturing '#&) to the garment industry.

B,,;" Re9,mmene5. #arr 2 and /antham


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6. #ooklin erry, Harment Technology for "ashion esignersI, : 3n Mer9+3ni"in> 2 * * 2

M3r;e#in>Domestic and &nternational marketing, challenges for international marketing, Development

of a product line, design, costing, developing a sample, specifications, market research, identification ofmarkets, promotion mix, advertising, sale promotion, promotion budget, coordination between sales andproduction,Mer9+3ni"in> Export houses, star trading export houses, :utsourcing, erchandise buying andhandling process, erchandise plans, determining merchandise sources, demand analysis, evaluatingmerchandise, merchandise forecasting and budgeting, planning inventory levels, development ofrelationship between the textile and retailing industry, setting up the dealers and merchandisers

B,,;" Re9,mmene5. otler 3hilip, HMar%eting ManagementI, 3rentice 2all of &ndia, Delhi, AthEd. '5AA@).*.


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TT-)) Te4#i


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TT )/* N,n C,n!en#i,n3< Y3rn M3n:@39#:re 2 * * 2

In#r,:9#i,n1 >ibre characteristics requirements for different leading spinning technologies. 3ossibilitiesand limitations of different spinning technologies.R,#,r Sinnin>1 3rinciple and raw material preparation. pecifications of different organs and effect ofeach on the process and product quality. %ew developmentsAir-8e# Sinnin>1 3rinciple and raw material preparation. 3rocess and machine parameters affectingproduct quality. 3rinciple of vortex yarn manufacture. Difference between air 8et spun and vortex spun

yarn structure.Fri9#i,n Sinnin>1 3rinciple and raw material preparation, process and machine parameters affectingproduct quality. ssessment of D"E>-&& and D"E>-&&& yarn structures and properties. C,m39#Sinnin>1 3rinciple and raw material preparation. #omparative assessment of the structure andperformance with respect to ring yarn.T,7 9,n!er"i,n1 3rinciples of different converters.O#+er Sinnin> "$"#em1 elf twist, twistless, warp spinning, Electrostatic spinning, #ore-spinning, irospinning, 1 lorida, (

'*++B)6. #hattopadhyay " and &shtiaque , H,!-ances in (arn Manufacturing &rocessI, Department of

Textile Technology, &&T Delhi '5AA5).4. 2earle $ ! , 2ollick / and !ilson D , H(arn Texturing TechnologyI, !oodhead 3ublishing

/td., ( '*++*).

TT )// N,n9,n!en#i,n3< F36ri9 M3n:@39#:re 2 * * 2

Pre3r3#i,n ,@ Y3rn @,r "+:##


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5. arks " and "obinsons T #, H&rinci'les of )ea-ingI, Textile &nstitute, ( '5A@?).*. /ord 3 " and ohamad 2, H+ea-ing/ Con-ersion of (arn to "abricI, errow Technical /ibrary,

( '5A@@).B. :rmerod , HMo!ern 're'arations an! )ea-ing machineryI, ,@ m3n m3e"1 Dye-fibre attachment. "ole of fibre structure in dyeing of man mades. Dyeing ofpolyester in 2T23 machines, carrier dyeing, thermosol dyeing. echanism of carrier action. Dyeing ofnylon with acid, metal complex, disperse, reactive and direct dyes. Dyeing of acrylic with disperse, acid

and cationic dyes. Dyeing of differentially dyeable man mades.D$ein> ,@ 6emen# 3n P, 73"#e1 &ts generation, different types, its re-use and management. Different types of pollutionin weaving industry. &ts impact on human being.

Te4#i


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C+emi93< :"e in #e4#i


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C,:r"e" ,@@ere 6$ ,#+er e3r#men#" #, "#:en#" ,@Te4#ien-!3


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H$,#+e"i" Te"#in>3rocedure of Testing 2ypothesis, tandard Error and ampling Distribution, Testsof ignificance, tudentOs t-Test, J-test.

2 Te"# 2 defined, 0ateOs #orrections, 3roperties of 2 , nalysis of 2

=3ri3n9e An3-test, Techniques of nalysis of ;ariance, nalysis of ;ariance in two-way#lassification odel.Mi"9e


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EC-/ Di>i#3< E


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PH-/*) M3#eri3< S9ien9e 3n En>ineerin> 2--*-)

S#r:9#:re ,@ 9r$"#3ne#i9 r,er#ie"1 agnetic moments and its origin, dia-and para-magnetism, ferro andferri-magnetism, soft and hard magnetic materials, ferrites, application of magnetic materials.S:er 9,n:9#i!i#$1 3roperties of superconductors, /ondon equations, quantumexplanation of super conductivity, flux quanti9ation, application of super conductors.

B,,;" Re9,mmene5. !illiam D. #allister, $r. Haterials cience and EngineeringI $ohn wiley and ons, &nc %ew 0ork,

5AAC.*. Dekker $, Holid tate 3hysicsI, cillan, &ndia /imited, adras, 5AA5.

B. 9aroff / ;, H&ntroduction to olidI, Tata c raw 2ill, %ew Delhi, 5AA*.6. "aghvan ;, Haterial cience and EngineeringI, 3rentice 2all of &ndia, %ew Delhi, 5A@@.4. ittal #, Holid tate 3hysicsI, !iley Eastern /imited, %ew Delhi, 5A@C.

PH-//) M3#eri3< S9ien9e 3n En>ineerin> L36,r3#,r$ *-*-/-

5. To determine the resistivity of a semiconductor by four-probe method.*. To estimate the band gap energy of a semiconductor.B. To determine the 2all coefficient of a semiconductor and hence to estimate the charge carrier

concentration.

6. To calibrate an electromagnet.4. To determine the magnetic susceptibility of a paramagnetic salt by uoyOs balance method.?. To find the energy loss due to hysteresis for the material of given metal ring using a #.".:.C. To investigate creep of a copper wire at room temperature.@. To find 0oungOs modulus, modulus of rigidity and 3oissonOs ratio for the material of a given wire

by earleOs method.A. To study the elastic behaviors of solids using composite 3ie9o-electric oscillator.5+. To study cooling curve of a binary alloy.55. To test the given cement sample using autoclave.5*. To determine the permittivity of a given material using parallel plate capacitor.5B. To verify "icherdsonOs equation of thermionic emission.56. To study the magnetometer and de-magneti9ation behaviour of a ferromagnetic rod by

magnetometer method.


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HM-) H:m3n Re",:r9e M3n3>emen# 2 * * 2

In#r,:9#i,n %ature of 2uman "esource anagement '2"), &mportance of 2uman "esourceanagement, >unctions of 2uman "esource anagement, The changing environment of 2" and"ole of 2" in changing business scenario.Pr,9:remen# $ob, $ob nalysis, $ob Description and $ob pecifications, anpower planning, demandand supply forecasting, recruitment, methods of recruitment, Employees testing and selection,types of psychological tests and interviews, placement and induction.

De!elippo Edwin


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C,:r"e" ,@@ere #, ,#+er e3r#men#" 6$ De3r#men# ,@ Te4#i1 #oncept of fibre spinning, machines involved in fibre production.Y3rn m3n:@39#:rin>1 achines for opening and cleaning, drafting stages, twisting and winding,package formation.F36ri9 m3n:@39#:rin>1 echanics of weaving process, weaving machineries, development ofmachines, basic concept of knitting process and machines, classification of nonwoven fabric, method ofmanufacturing of nonwoven fabric, development of nonwoven machines.D$in> rin#in> 3n @ini"+in>


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Dr B R AMBEDKAR NATIONAL INSTITUTE OF TECHNOLOGY JALANDHAR

THE HONOUR CODE

I____________________________, Registration no.______________ do hereby undertake that as a student at Dr B R Ambedkar

NIT Jalandhar:

(! I "ill not gi#e or re$ei#e aid in e%aminations& that I "ill not gi#e or re$ei#e

un'ermitted aid in $lass "ork, in 're'aration o re'orts, or in any other "ork that is

to be used by the instru$tor as the basis o grading& and

()! I "ill do my share and take an a$ti#e 'art in seeing to it that others as "ell as

mysel u'hold the s'irit and letter o the *onour +ode.

I realie that some e%am'les o mis$ondu$t "hi$h are regarded as being in #iolation o the

*onour +ode in$lude:

$o'ying rom another-s e%amination 'a'er or allo"ing another to $o'y rom one-s o"n

'a'er&

un'ermitted $ollaboration& 'lagiarism&

re#ising and resubmitting a marked ui or e%amination 'a'er or re/grading "ithout

the instru$tor-s kno"ledge and $onsent&

gi#ing or re$ei#ing un'ermitted aid on take/home e%aminations&

re'resenting as one-s o"n "ork the "ork o another, in$luding inormation a#ailable

on the internet& and

gi#ing or re$ei#ing aid on an a$ademi$ assignment under $ir$umstan$es in "hi$h a

reasonable 'erson should ha#e kno"n that su$h aid "as not 'ermitted.

$ommitting a $yber oen$e, su$h as, breaking 'ass"ords and a$$ounts, sharing

'ass"ords, ele$troni$ $o'ying, 'lanting #iruses et$.

I a$$e't that any a$t o mine that $an be $onsidered to be an *onour +ode #iolation "ill

in#ite dis$i'linary a$tion.

Date SSSSSSSSSSSSSSSS tudentOs ignature SSSSSSSSSSSSSSSSSSSSSSSSSSSSS

%ameSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSS

Entry no.SSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSS

%:TE T: T(DE%T

ubmit one signed copy at "egistration

eep one signed copy with you

eep one signed copy with your parent's)7guardian

Syllabus_TXE_Sem 3-8.doc

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Transcript of Syllabus_TXE_Sem 3-8.doc