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8/6/2019 M.E Textiles - Syllabus1
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Textile Engineering Department
Faculty of Technology & Engineering
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M. E. (TEXTILES) (TEXTILE ENGG.) PART-I
MATHEMATICS (INCLUDING STATISTICS)THEORY : 4 PAPER : 100
MARKSPRACTICAL : -- PR / TW / VIVA : --
TOTAL : 4 TOTAL : 100 MARKSSYLLABUS:Infinite series,
introduction to elliptic function, elliptical integrals, ordinary
and partial differentialequations. solution of differential
equations in series. Numerical analysis including
numericalintegration. Empirical formula and curve
fitting.Introduction to solution of equations. Determinants and
matrices. Introduction to factor analysis.Analysis of data, concept
of probability. Discrete and continuous distribution. Tests of
significance.Sample size. Analysis of variance. Operating
characteristic curve. Control charts, correlation andregression
analysis.
UNCONVENTIONAL WEAVINGTHEORY : 4 PAPER : 100 MARKSPRACTICAL : --
PR / TW / VIVA : --TOTAL : 4 TOTAL : 100 MARKS
SYLLABUS:Principle of operation of shuttleless looms and recent
development on these machines. Comparativestudy of new systems of
weft insertion. Weft storage units, unwinding tensions, package
build andcolour selection mechanism, selvedge formation.Theoretical
aspects of air - jet, water - jet, projectile, rapier and inertial
system of weft insertion. Powerrequirement for these weft insertion
systems. Design considerations for shedding and beat - uprelation
to warp tensions on shuttleless looms.Principles of multi phase
weaving and problems associated with it. Yarn preparatory processes
forshuttleless weaving. Economic aspects of shuttleless
weaving.
ENGINEERING PROPERTIES OF TEXTILE MATERIALSTHEORY : 4 PAPER :
100 MARKSPRACTICAL : 2 PR / TW / VIVA : 50TOTAL : 6 TOTAL : 150
MARKSSYLLABUS :Mechanism of deformation in fibres. Principles of
elasticity. Visco elasticity, Stress - strain relation.Creep,
stress relaxation, Time - temperature effects and dynamic
mechanical properties. Quantitativetheoretical interpretation of
mechanical behaviour. Thermodynamic analysis of
mechanicaldeformation. Reaction rate theory applied to the relative
moment of the long chain molecules in fibres.Anisotropy.
Determination of poisson ratios, bending and torsional rigidity of
fibres and theirdetermination.
THEORY OF TEXTILE STRUCTURE - ITHEORY : 4 PAPER : 100
MARKSPRACTICAL : - PR / TW / VIVA : --TOTAL : 4 TOTAL : 100
MARKSSYLLABUS:The tensile, bending and torsional rigidity of fibres
and their determination. Elements of yarngeometry, geometry of
helix and its application to yarn structure. Geometry of folded
yarns. Yarndiameter and density.Effect of fibre properties and
their geometrical configuration on the tensile, bending, flexural
andtorque properties of yarn. Design of yarn structure for certain
functional theories of yarn strength.Theoretical analysis of yarn
irregularity. Fibre migration characteristics of spun yarn and
continuousfilament yarns. Blend irregularities. Concept of
elongation balance. Effect of properties of constituentfibres and
blend composition on the behaviour of composite yarns.
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Textile Engineering Department
Faculty of Technology & Engineering
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THEORY AND DESIGN OF SPINING MACHINERYTHEORY : 4 PAPER : 100
MARKSPRACTICAL : -- PR / TW / VIVA : --TOTAL : 4 TOTAL : 100
MARKSSYLLABUS:Difference in the aerodynamic characteristics of lint
and trash and its utilization in blow - roommachinery design.
Redesigning of conventional openers for better performances.
Problemsassociated with high production carding and modification in
carding design for improvedperformances. Fibre arrangement in
slivers and its influence on the design of drawing and
combingmachinery. Problems of winding in Fly frames. Dynamic and
static friction of fibres and their influenceon ring frame drafting
arrangement designs. Twist flow. Twist tension interaction and its
influence onthe breakage rate. Traveller wear, Travellers and rings
for high speed spinning. Living ring.
HIGH SPEED COMPUTATIONTHEORY : 4 PAPER : 100 MARKSPRACTICAL : 4
PR / TW / VIVA : 100 MARKSTOTAL : 6 TOTAL : 150 MARKS
SYLLABUS:Fundamentals of computer programming. Fortran
programming. Application of programming tonumerical analysis i.e.
matrix algebra, non - linear equations, interpolation and
integration.
M. E. (TEXTILES) (TEXTILE ENGG.) PART-II
THEORY OF TEXTILE STRUCTURES - IITHEORY : 4 PAPER : 100
MARKSPRACTICAL : -- PR / TW / VIVA : --TOTAL : 4 TOTAL : 100
MARKSSYLLABUS:Theories of yarn diameter and cloth setting . Cover
factor . Determination and itspractical applications of Peirce's
geometry of plain woven fabrics. Analytical andgraphical solutions
of basic cloth equations. Later modifications of Peirce'sequations.
Crimp interchange in woven fabrics. practical applications of
simple clothgeometry.Geometry of rigid elastic threads in fabrics.
Crimp balance of elastic threads.Theoretical treatment of fabric
deformation in tension, bending and shear. Clothbuckling and
recovery from wrinkle.Effect of fabric relaxation and finishing
process on its structure and properties.Theoretical strength
determination of non-woven fabrics.
TEXTURED YARN TECHNOLOGYTHEORY : 4 PAPER : 100 MARKSPRACTICAL :
-- PR / TW / VIVA : --TOTAL : 4 TOTAL : 100
MARKSSYLLABUS:Importance of Texturing. Methods of texturising.
Basic principles. Heat setting and texturising. Falsetwisting.
Process variables. Developments of false twisting texturising
machines. Structural geometryof textured yarn. Characterization of
textured yarns. Stuffer Box crimping, Edge crimping , and
othermethods of texturising thermoplastic yarns. Textured yarn
properties and fabric characteristics.Principles of Draw textured
yarns. Principle of air bulking and properties of textured
yarns.Texturising of non-thermoplastic yarns, cross-linking and
effect of process variables on properties oftextured yarns.
Texturising with aid of solvents. Yarn characteristics,
Morphological changes inducedby machine properties of textured
yarns.
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Textile Engineering Department
Faculty of Technology & Engineering
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MODERN YARN PRODUCTION
THEORY : 4 PAPER : 100 MARKSPRACTICAL : -- PR / TW / VIVA :
--TOTAL : 4 TOTAL : 100 MARKSSYLLABUS:Tow conversion process, High
bulk yarn. Systems of open-end spinning. Rotor spinning.
Mechanismof yarn formation. Structure and properties of rotor spun,
air-vortex spinning. Core spun and othercomposite yarns. Twistless,
self twist and other unconventional methods of spinning.
Yarncharacteristics of unconventional spun yarns.
THEORY AND DESIGN OF WEAVING MACHINERYTHEORY : 4 PAPER : 100
MARKSPRACTICAL : -- PR / TW / VIVA : --TOTAL : 4 TOTAL : 100
MARKSSYLLABUS:Yarn ballooning and its comprehensive study regarding
its causes and effects.Analysis of yarn tensioning devices.
Theoretical aspects of yarn unwinding tension. Measurement
andcontrol of yarn tension in winding. yarn tension measuring
instruments.Theory and practices of automatic controls in sizing
process.
Principles governing the design of the loom. Mechanics of basic
Weaving operations. Kinematics ofsley and heald motions.
Theoretical analysis picking and checking mechanisms on looms.
Warptension and its control. Measurements of warp tension. Weft
tension variations, its measurements andeffect on fabric. Pirn
build and conditions of yarn sloughing.
