To be introduced from the
academic year 2010-11
(i.e. from June 2010 ) Onwards
(Subject to the modifications will
be made from time to time)
M.TEXT.(TEXTILE
CHEMISTRY) SEMESTER-I
ADVANCED TEXTILE
CHEMICAL PROCESSING – I
Lectures : 3 hrs/week
Assignment : 1 hr/ week
Theory Paper : 100 Marks
Term Work : 50 Marks
Subject Total : 150 Marks
Chapter 1. Process
modifications in Pretreatments
Eco-friendly peracetic acid bleaching,
Eco-friendly retting of Jute, Redox H2O2
bleaching, Concept of Eco-friendly
stabilizers for H2O2 bleaching. Combined
operations like desizing- scouring-
bleaching, solvent scouring, Hot and
ammonia mercerization, add-on
mercerization
Chapter 2. Use of
biotechnology in Pretreatments
Developments in singeing, desizing and
its eco-aspects, size recovery,
bleaching and its eco-aspects,
classification of enzymes, Mode of action of
enzyme, Factors affecting efficiency
of enzyme treatment.
Enzyme retted flax using different
formulations, influence of enzymatic
pretreatment on the colours of
bleached and dyed flax fibers, combined
bioscouring and bleaching of cotton
fibers, effect of ultrasound on the
performance of industrial enzymes used
in cotton bio-preparation/bio-finishing
applications, Enzymatic degumming,
enzymatic H2O2 bleaching,
nanobiotechnology.
Chapter 3.
Developments in Dyeing
Dyeing and its eco-aspects, new dyes
and their advantages. Eco-friendly
dyeing with sulphur & vat dyes.
New developments in reactive dyes like HF
dyes, low and no salt reactive dyes,
multifunctional dyes, neutral fixing and
acid fixing reactive dyes.
Photo chromic dyes, thermo chromic
dyes, fluorescent dyes.
Natural Dyes - Sources and
classification of natural dyes, extraction methods,
mordents, dyeing of natural and
synthetic fibrous material with natural dyes.
Super critical CO2 dyeing – concept,
mechanism, methods and technoeconomical
features. Ultrasound in dyeing -
Concept, mechanism, methods and techno-economical
features. Low temperature dyeing -
concept, mechanism, methods and technoeconomical
features.
Chapter 4. Processing
of Denim and Terry towel
Introduction to denim, types of Denim
fabrics, chemistry and process of warp
dyeing with indigo. Indigo dyeing
equipments. Dyeing with mixture of indigo
and other dyes.
Process sequence and machines used for
terry towel manufacturing,
essential properties of terry towel
fabrics like pile properties. Type and
application of terry fabrics.
Different stages of towel processing and finishing.
Chapter 5. Processing
of specialty fabrics
Carpet Processing - Different fibres
suitable for carpets, types of carpets,
essential properties of carpet fabric.
Dyeing and printing of carpets.
Mechanical and chemical finishing of
carpets.
Processing of Lyocell
- General
properties and uses of lyocell (Tencel).
Pretreatment, dyeing and finishing of
lyocell. Concept of fibrillisation, its
causes and remedies.
Processing of Fabric
containing spandex - Properties
and uses of spandex
fibres and blends. Wet processing of
Cotton / Spandex, polyester / Spandex
fabrics.
Note: Term work for
this subject will be based on above syllabus.
REFERENCE BOOKS
1. Biotechnology in Textile
processing, by Georg M. Guebitz, Artur
Cavaco-paulo, Ryszard Kozlowski, The
Hawarth Press, Inc.
2. Denim a Fabric for All by dr.
Parmar, NITRA
3. Manufacturing of Terry Towel by
Subhash J. patil, Universal Book
Corporation, Mumbai.
4. Interior Furnishing by Mortimer
O’shea, Textile Progress, Vol. 11, No.
1, Textile Institute.
5. Textile Floorocovering by G. H.
Crowshaw, Textile Progress, Vol. 9,
No. 2, Textile Institute.
6. Carpet Surface by H. Pointon,
Textile Trade Press, UK.
7. Wool science and Technology by W.
S. Simpsion, G. H. Crowshaw,
Woodhead Publishing, Textile
Institute.
8. Trouble shooting in Wet Processing:
Acetate, Reyon / Lyocell and
Spendex Blends, AATCC.
9. Handbook of Jute by T C Ranjan.
10. Environmental Issues – Technology
option for Textile Industry Edited
by R. B. Chavan, Indian Journal of
Fibre & Textile Research Special
Issue - March, 2001.
11. Eco-friendly Textiles Challenges
to Textile Industry – Textile
Committee.
12. Environmental Success – America
Textile Industry, AATCC
Symposium – 1996.
13. The Textile Industry: Achieving
Our Environmental Commitment –
AATCC Symposium – 1994.
14. Textile Energy & Waste Seminar
– Textile Institute, 1997.
M.TEXT.(TEXTILE
CHEMISTRY) SEMESTER-I
HIGHTECH FIBRES-I
Lectures : 3 hrs/week
Assignment : 1 hr/ week
Theory Paper : 100 Marks
Term Work : 50 Marks
Subject Total : 150 Marks
Chapter – I :
Physical Fundamentals of Fibre Spinning Process –
General Principles of spinning
process, Spinnability of liquids, rheology
of spinning. Mechanism of spinning
flow in the spinning spinneret channel,
the exitzone & elongation of free
fluid jet. Mechanism of solidification.
General principles, heat transfer and
temperature distribution, diffusion and
phase transition. Formation of fibre
structure – molecular orientation.
Transition phenomena in a fibre
forming melt solution.
Chapter – II :
Viscoelastic Properties –
Boltzman super position principle,
dynamic mechanical properties.
Theories of shear viscosity –
constitutive behaviour of dilute solutions –
constitutive behaviour of concentrated
solutions & melts.
Chapter-III :
Modelling & Theoretical Basis for the Physical Behaviour of
Synthetic Fibre –
Goals & Premises- Dependence on
polymer physics – Key
assumptions in polymer physics – Local
inter molecular interactions –
Concept of modeling. Various models of
polymers / fibres. Eyrings model,
Voigts model. Fringed micelle theory-
Fibre structure models – Takayanagi
models – Network model – Polymer
physics of amorphous regions. WLF
approach. Molecular & micro
structural modeling fibres. Fibres properties –
physical structure – Micro structural
models – molecular modeling.
Chapter – IV : High
Speed Spinning -
Concept of High speed spinning –
Effects of speed on the dynamics of
melt spinning – Tension & stress
components in the spinning line – Cooling
rate and temperature distribution –
Neck line deformation & stability of high
speed spinning – possible mechanisms
of necking. Draw resonance Vs
viscoelastic failure – Stress induced
crystallization in the spinning line.
Chapter – V :
Introduction to High Performance Fibres –
Structure of HM –HT fibres- molecular
arrangements – Gross features.
Stress strain properties, creep &
recovery, time & temperature dependence of
strength – Simplistic theory of
tensile deformation.
Chapter-VI : Advances
in Fibres -
Raw Materials, manufactures &
physical & chemical properties of
TENCEL, Lycra, Kodel-II, CDPET, Micro
PET, Bionelles, Spectra @ R 800.
Melt spinning of hollow fibres –
technology – Theoretical investigation –
Polymers for melt spun Hollow fibres –
Fields of applications. Chemical
modification of melt spun fibres –
Modification of PET, Nylon 6 &
Polypropylene.
Chapter-VII : Aramid
Fibres -
Introduction – Raw materials, Polymer
preparation, Spinning, Structure,
Physical & Chemical properties
& Applications of Kevlar & Nomex.
Composites of Kevlar & Nomex.
Note: Term work for
this subject will be based on above syllabus.
LIST OF REFERENCE
BOOKS :-
1) Hand Book of Fibre Science &
Technology- Vol-III Part B
2) New Fibres – Second Edition – T.
Hongu & Phillips- Wood Head
Publishing Ltd., Cambridge, England.
3) Advanced Fibres Spinning Technology
– Prof. T. Nakajima - Wood Head
Publishing Ltd., Cambridge, England.
4) Progress in Textiles : Science
Vol.-II Textile Fibres Developments &
Innovations – Dr. V.K. Kothari, IAFL
Publication, New Delhi.
5) High Speed Fibre Spinning : Science
& Engineering Aspects – A.
Ziavicki & H. Kawai. A Wiley Inter
Science Publication.
6) High Performance Fibres – J.W.S.
Hearle, Wood Head Publishing Ltd.,
Cambridge, England.
7) Advances in Fibre Science : Dr.S.K.
Mukhopadhyay, The Textile
Institute, Manchester.
8) Physical Properties of Textile
Fibres – W.E. Morton & J.W.S. Hearle.
The Textile Institute, Manchester.
9) Kevlar Aramid Fibres – H.Yang –
John Wiley & Sons.
10) Mechanisms of Textile &
Laminated Composites – A.E. Bogdanovich &
C.M. Pastore – Chapman & Hall.
11) Manufactured Fibre Technology –
Dr.V.B. Gupta & Dr.V.K. Kothari,
Chapman & Hall.
M.TEXT.(TEXTILE
CHEMISTRY) SEMESTER-I
ADVANCED COMPUTER
APPLICATIONS IN TEXTILES
Lectures : 3 hrs/week
Assignment : 1 hr/ week
Theory Paper : 100 Marks
Term Work : 50 Marks
Subject Total : 150 Marks
1) Artificial Neural
Networks :-
Biological Neuron & their
artificial models, Models of artificial neural
neuron, Neural processing, learning
& adaptation, Neural Network learning
rules, Multilayer feed forward
networks, Generalised error back pro-projection
training algorithm, application of ANN
in textiles : Yarn strength prediction
using ANN. Case study.
2) E-Commerce :-
The scope of electronic commerce,
definition of electronic commerce,
E-commerce and the trade cycle,
Electronic markets, Electronic data
interchange, Internet Commerce,
Business Strategy in E-commerce, The
value chain, supply chain, Porter’s
value chain model. Inter organization
value chains, Business to business
E-commerce, Inter organizational
transaction, The credit transaction
trade cycle. Advantages & disadvantages
of Electronic markets. Application of
E-commerce in textile industries.
3) Introduction To ERP
Introduction to ERP, Basic ERP
concepts, Justifying ERP Investments,
RISK of ERP, Benefits of ERP.
4) ERP And Technology
ERP and Related Technologies, Business
Intelligence (BI), Business Process
Reengineering (BPR), Product Life
Cycle Management, Supply Chain
Management (SCM), Customer
Relationship Management (CRM).
5) SAP
Architecture of SAP R/3, SAP
Integrated- Analysis, Implementation, and
Design, Three-Tier Architecture, Need
of Multi-tier Architecture, Integrating
Environments.
Note: Term work for
this subject will be based on above syllabus.
REFERENCE BOOKS :-
1) Introduction to Artificial Neural
Systems – J.M Zurada, Jaico Book.
2) E-Commerce – David Whiteley, TmH.
3) ERP Demystified - Alexis Leon, TMH
4) Enterprise Resource Planning – Alexis
Leon, TMH.
5) Information Technology for
Management,- Turban-McLean.
Wetherbe
6) SAP R/3 SAP Architecture,
Administration, Basis, ABAP
Programming with MM and SD Modules –
Dreamtech Press
M. TEXT (TEXTILE
CHEMISTRY) SEMESTER – I
TECHNICAL TEXTILES
Lectures : 3 hrs / week
Assignment : 1 hr / week
Theory paper : 100 marks
Term Work : 50 marks
Subject Total : 150 Marks
Chapter 1:
Introduction to Technical Textile
Definition, significance and
principles of technical textiles, difference between
technical and non- technical textiles,
classification of technical textiles
Chapter 2: Coated
Textile – Textile and Coating materials
Textile materials and fibers, their
properties, woven, knitted, non-woven
materials.
Polymeric materials for coating and
their properties like rubber (natural and
synthetic), polyvinyl chloride,
polyurethane, acrylic polymers.
Application of coated materials like
synthetic leather, architectural textile, Fluid
containers, tarpaulins, Automotive
airbags, Carpet backing, textile foam
laminates for interiors.
Water proof breathable fabrics –
types, preparation and their performances
assessment.
Chapter 3: Coating
techniques
General features, Coating techniques
like - knife, roll, Dip, transfer, grove,
rotary screen, Calendering, hot melt,
Scatter and Lamination.
Chapter 4:
Performance evaluation of coated textiles
Physical properties of coated textiles
and test methods like tensile strength,
elongation, adhesion, tear resistance,
weathering behavior, biodegradation,
coating mass per unit area, degree of
fusion, Damaged to flexing, test for
fastness to dry and wet rubbing, Low
temperature bend and impact test, water
& air permeability / resistance,
Penetration of hazardous chemicals, electrical
resistivity.
Chapter 5: Medical
Textiles
Materials used in biotextiles,
classification of medical textiles, and textile for
implantation, Non implantable textile,
Extra corporial textile, healthcare and
hygiene products
Chapter 6: safety and
Protective textiles
High temperature textile , Flame
resistant protective clothing, chemical
protective clothing, Mechanical and
electrical protective clothing, clean room
textiles, Radiation protection,
thermal insulation and high visibility textile,
Metallised fabrics, space suits.
Chapter 7: Phase
changing materials
Concept of Phase Change Materials,
Mode of action of Phase Change
materials, Application of Phase Change
Materials.
Chapter 8: Shape
memory polymers
Concepts associated with shape memory
materials, principle pf temperature
dependant shape memory polymers,
Application and prospects for shape
memory polymers. Structure and
synthesis of shape memory polymers,
preparation of shape memory polymers
for medical use. Water vapor
permeability (WVP) of shape memory
polyurethane (SMPU), equilibrium
sorption and dynamic sorption of SMPU,
temperature dependence of WVP
through SMPU
Shape memory fibres, role of smart
materials in textiles, shape memory
material in smart fabrics and
garments.
Chapter 9: Nano
fibers
Various Methods of manufacturing of
nano-fibres, properties and application
of nano fibres
Note: Term work for
this subject will be based on above syllabus.
REFERENCES:
1. Handbook of Technical Textiles by
A.R. Horroc and S. C. Anand
2. Coated Textiles Principles and
Applications by Dr. A. K. Sen
3. Medical Textiles by Subhash Anand
4. Wellington Sear’s Hand book of
Industrial Textile by Rd. Sabit Adnur.
5. Shape memory polymers and Textiles
by Jinlian HU
6. Clothing biosensory engineering by
Y. Li and A.S.W. Wong
7. Biochemical Engineering of Textile
and Cloting by Y. Li and X-Q. Dai
M.TEXT.(TEXTILE
CHEMISTRY) SEMESTER-I
PHYSICAL METHODS OF
ANALYSIS & ECO-TESTING(ELECTIVE-I)
Lectures : 3 hrs/week
Assignment : 1 hr/ week
Theory Paper : 100 Marks
Term Work : 50 Marks
Subject Total : 150 Marks
Chapter I : Electron
Microscopy :
Basic theory of electron microscopy.
imaging system, image-translating
system of electron microscope. Principle,
working procedure and application of
scanning Electron Microscope and
Transmission electron microscope.
Chapter II :
Spectroscopy :
Infrared spectroscopy. Introduction,
experimental techniques, Infrared
spectra of natural and synthetic
fibres. Identification of finishing agents using
IR. FTIR spectroscopy.
X-ray diffraction and Fluorescence.
Principle, working procedure of Xray
diffraction technique. X-ray
diffraction of natural and synthetic fibres. Xray
Fluorescence and its application to
textile related materials.
NMR and Mass Spectroscopy: Principle,
working procedure and application
of NMR and Mass Spectroscope.
Chapter III :
Chromatographic Methods :
Theoretical considerations of
chromatography. Gas chromatography –
Instrumentation, qualitative analysis,
quantitative analysis, theory and
applications. High Pressure Liquid
Chromatography – Instrumentation and
applications.
Chapter IV :
Eco-Testing :
Concept of Banned Dyes, Chemicals and
Auxiliaries. Testing and
analysis of banned dyes, chemicals and
auxiliaries used in Textiles.
Chapter V : Methods
for Analyzing damage in Textile Materials :
Concept of Mechanical and Chemical
damage. Methods for analyzing
damage in natural and synthetic
fibrous materials.
Note: Term work for
this subject will be based on above syllabus.
REFERENCE BOOKS :-
1. Instrumental Methods of Analysis 7th Edition by H.H.
Willard; L.L.
Merritt, John A Dean, Frank A Settle,
Jr. CBS Publishers & Distribution
Delhi.
2. Instrumental Methods of Chemical
Analysis 5th
Edition
by Galen W.
Ewing.
3. 100 and More Basic NMR Experiments
– A Practical course by S.
Baraun, H.Kalinowski, S. Berger.
Weinhein – New Yark, Basel
Cambridge – Tokyo.
4. Elementary Organic Spectroscopy –
Principles and Chemical
Applications by Y.R. Sharma.
5. Spectroscopy of Organic Compounds
by P.S. Kalsi
6. Basic Concepts of Analytical
Chemistry, 2nd
Edition
by S.M. Khopkar
7. The Analytical Chemistry of
Synthetic dyes Edited by K.
Venkataraman. Wiley – Interscience
Pub. John Wiley & Sons New
York.
8. Hand Book of Textile Testing Part 1
to 4, Bureau of Indian Standards.
9. Instrumental Analysis of Cotton
Cellulose & Modified Cotton Cellulose
– Robert T.O’ Connor.
10. Textile Laboratory Manual – W –
Garner Vol.I & II.
11. Physical Methods of Investigating
Textiles – ED R. Meredith J.W.S.
Hearle.
12. Textile Laboratory Manual – Walter
Garner.
13. Handbook of Environmental Health
& Safety – Principles & Practices –
Herman Koren, Michael Bisesi Vol.- I
& II.
14. Textile Testing & Its Role in
Textile Business with Special Reference to
Eco-Friendly Textiles &
Eco-Testing – Dr.G.S. Nadiger & S.
Subramanian.
15. Handbook of Methods of Tests for
Cotton Fibres, Yarns & Fibres –
Dr.V. Sundaram & Dr. R.L.N.
Iyengar.
16. Vibrational Spectroscopy Theory
& Applications – D.N.
Sathyanarayana.
17. Analytical Methods for a Textile
Laboratory – J.W. Weaver.
18. Mass Spectroscopy – E. Constantin
& A. Schanell.
19. Profiles in Analysis of Chemicals
– Dr.N.F. Desai.
20. Introduction to Electron
Microscopy – Saul Wischnitzer.
21. X-ray Diffraction Methods in
Polymer Science – Alexander Leray E.
22. X-ray Diffraction –
Cullity B.D.
M.TEXT.( TEXTILE
CHEMISTRY) SEMESTER-I
NANOTECHNOLOGY IN
TEXTILES (ELECTIVE-I)
Lectures : 3 Hrs / Week
Assignment : 1 Hrs / Week
Theory Paper : 100 Marks
Term Work : 50 Marks
Subject Total : 150 Marks
PART 1 NANOFIBER
PRODUCTION
Electrospinning of
nanofibers
- Introduction
- Principles of electrostatic
atomization
- Electrospraying and electrospinning by
the capillary method
- Electrospraying and Electrospinning
by the charge injection method
Producing nanofibre
structures by electrospinning for tissue
engineering
- Introduction
- Fabrication of nanofibrous scaffolds
- Characterization of nanofibrous
scaffolds
- Cell-scaffolds interaction
Continuous yarns from
electrospun nanofibers
- Introduction
- Using electrospun nanofibers:
background and terminology
- Controlling fiber orientation
- Producing non-continuous or short
yarns
- Producing continuous yarns
Producing polyamide
nanofibers by electrospinning
- Introduction
- The electrospinning process
- Measuring the mechanical properties of
electrospun nanofibers
Measuring the effects of different
spinning conditions and the use of
high molecular weight polymers on the
properties of electrospun
nanofibers
- Improving the properties of
electrospun nanofibers: experimental
results
Controlling the
morphologies of electrospun nanofibers
- Introduction
- The electrospinning process and
fibre morphology
- Polymer concentration and fibre
diameter
- Fibre bead formation and fibre
surface morphology
- Controlling fibre alignment and web
morphologies
- Bicomponent cross-sectional
nanofibres
- Future trends
PART 2 CARBON
NANOTUBES AND NANOCOMPOSITES
Synthesis,
characterisation and applications of carbon nanotubes: the
case of aerospace
engineering
- Introduction
- The development and structure of carbon
nanotubes
- Synthesis of carbon nanotubes
- Characterisation techniques
- Purification techniques
- The use of carbon nanotubes in
aerospace engineering
- Nanostructured composite materials
for aerospace applications
- Nanostructured solid propellents for
rockets
- Frequency Selective Surfaces (FSS)
for aerospace applications
- Other aerospace applications of
carbon nanotubes
Carbon nanotube and
nanofibre reinforced polymer fibres
- Introduction
- Synthesis and properties of carbon
nanotubes
- Developing nanotube/nanofibre
polymer composites
- Adding nanotubes and nanofibres to
polymer fibres
- Analysing the rheological properties
of nanotube/nanofibre polymer
composites
- Analysing the microstructure of
nanotube/nanofibre polymer composites
- Mechanical, electrical and other
properties of nanocomposite fibres
Structure and
properties of carbon nanotube-polymer nanofibers using
melt spinning
- Introduction
- Producing carbon nanotube-polymer
nanofibers
- Thermal characterisation
- Fiber morphology
- Mechanical properties of fibers
Multifunctional
polymer nanocomposites for industrial applications
- Introduction
- The development of functional
polymer nanocomposites
- Improving the mechanical properties
of polymer nanocomposites
- Improving the fire retardant
properties of polymer nanocomposites
- Improving the tribological
properties of polymer nanocomposites
- Case-study: development of a
nanocomposite sliding seal ring
- Enhancing the functionality of polymer
nanocomposites
Nanofilled
polypropylene fibers
- Introduction
- Polymer layered silicate
nanocomposites
- The structure and properties of
layered silicate polypropylene (PP)
nanocomposites
- Nano-silica filled polypropylene
nanocomposites
- Calcium carbonate and other
additives
PART 3 IMPROVING
POLYMER FUNCTIONALITY
Nanostructuring
polymers with cyclodextrins
- Introduction
- Formation and characterisation of
polymer-cyclodextrin-inclusion
compounds
- Properties of
polymer-cyclodextrin-inclusion compounds
- Homo- and block copolymers coalesced
from their cyclodextrin-inclusion
compounds
- Constrained polymerisation in
monomer cyclodextrin-inclusion compounds
- Coalescence of common
polymer-cyclodextrin-inclusion compounds to
achieve fine polymer blends
- Temporal and thermal stabilities of
polymers nanostructured with
cyclodextrins
- Cyclodextrin-modified polymers
- Polymers with covalently-bonded
cyclodextrins
Dyeable polypropylene
(PP) via nanotechnology
- Introduction
- Dyeing techniques for unmodified
polypropylene
- Modifying polypropylene for improved
dyeability using copolymerisation and
other techniques
- Polyblending and other techniques
for improving polypropylene dyeability
- Dyeing polypropylene nanocomposites
- Using x-ray diffraction analysis and
other techniques to assess dyed
polypropylene nanocomposites
Polyolefin/clay
nanocomposites
- Introduction
- Organomodification of clays
- Polyolefin/clay nanocomposites
- Polypropylene/clay nanocomposites
- Polyethylene/clay nanocomposites
- The range of polyolefin/clay
nanocomposites
Multi-wall carbon
nanotube-nylon 6 nanocomposites from
polymerization
- Introduction
- Nanocomposite synthesis and
production
- Characterisation techniques
- Properties of multi-wall carbon
nanotube-nylon 6 nanocomposite fibers
PART 4 NANOCOATINGS
AND SURFACE MODIFICATION TECHNIQUES
Nanotechnologies for
coating and structuring of textiles
- Introduction
- Production of nanofiber nonwovens
using electrostatic spinning
- Anti-adhesive nanocoating of fibres
and textiles
- Water and oil-repellent coatings by
plasma treatment
- Self-cleaning superhydrophobic
surfaces
Electrostatic
self-assembled nanolayer films for cotton fibers
- Introduction
- Principles of electrostatic
self-assembly (ESA) for creating nanolayer films
- Advantages and disadvantages of
electrostatic self-assembly
- Substrates used for ESA
- Polyelectrolytes used for ESA
- Analysing self-assembled nanolayer
films on cotton
Nanofabrication of
thin polymer films
- Introduction
- Macromolecular platform for
nanofabrication
- ‘Grafting from’ technique for
synthesis of polymer films
- ‘Grafting to’ technique for
synthesis of polymer films
- Synthesis of smart switchable
coatings
- Synthesis of ultrahydrophobic
materials
Hybrid polymer
nanolayers for surface modification of fibers
- Introduction: smart textiles via
thin hybrid films
- Mechanisms of responsive behavior in
thin polymer films
- Polymer–polymer hybrid layers
- Polymer–particles hybrid layers
- Hierarchical assembly of active
nanostructured hybrid films
Structure-property
relationships of polypropylene nanocomposite fibres
- Introduction
- Materials, processing and
characterisation techniques
- Structure and morphology
- Phase homogeneity and spinline
stability
- Optical birefringence and infra-red
activation
- Crystallisation behaviour and
mechanical performance
- Exfoliation by extensional flow
deformation
Note: Term work for
this subject will be based on above syllabus.
Reference Books :-
1) Nanofibres & Nanotechnology in
Textiles by P.J. Brown & K. Stevens.
2) New Millennium Fibres by G.O.
Phillips & M.Takigami.
3) Analytical Electrochemistry in
Textiels by P. Westbroek, G. Priniotakis
& P. Kiekens.
4) Smart Textiles for Medicine &
Healthcare by L. Van Langenhove.
5) The Nanoscope, Encyclopedia of Nano
Science & nanotechnology
Vol.-I to VI, Dr. Parag Diwan &
Ashish Bharadwaj.
6) Nanotechnology in Fibres matures :
A New Perspective, Textile
Progress, The Textile Institute by
Rajesh D. Anandiwala.
M.TEXT.(TEXTILE
CHEMISTRY) SEMESTER-I
SEMINAR – I
Practical : 1 hr/ week
Term Work : 50 Marks
Subject Total : 50 Marks
Seminar-I should be based on the
literature survey on any topic relevant to
textile chemistry (should be helpful
for selecting a probable title of
dissertation). Each student has to
prepare a write up of about 15 pages of
“A4” size sheets and submit it in duplicate
as the term work. The student has
to deliver a seminar talk in front of
the faculty members of the department and
his/her classmates. The faculty
members, based on the quality of the work
and preparation and understanding of
the candidate, shall do an assessment
of the seminar internally – jointly.
Some marks should be reserved for the
attendance of the student in the
seminars of the others students.
M.TEXT.(TEXTILE
CHEMISTRY) SEMESTER-II
ADVANCED TEXTILE
CHEMICAL PROCESSING-II
Lectures : 3 hrs/week
Assignment : 1 hr/ week
Theory Paper : 100 Marks
Term Work : 50 Marks
Subject Total : 150 Marks
Chapter 1. Digital
Printing
Concept, methods of inkjet printing,
colour separation, selection of dyes and
developments in inks,
techno-economical features.
Chapter 2. Transfer
Printing –
Concept, selection of dyes and paper,
mechanism of dye transfer, process
sequences, techno-economical features,
various transfer printing machines.
Chapter 3. Special
Printing Effects – Advantages
and disadvantages of
pigment printing, various developments
to overcome the problems, Special
print recipes for fashion &
garments. Khadi, Metallic, Floc, Plastizol,
Reflective, Pearl, Fluorescent
Printing, High Density Printing, Puff Printing,
Foil Printing, Plastic Printing, Label
Printing Defects, Garment defects.
Chapter 4. Speciality
Finishes on Garments –
Finishing of woven / knitted
garments – stone wash, stoneless stone
wash effects – mud wash, Ion wash,
chalk wash etc. , various softening
treatments, Bio polishing, Leather Finish,
Protective Finishes – Antimicrobial,
Deodorizing etc., Functional Finishes –
Cool finish, Thermocat finishes,
Wrinkle free finishes.
Wash down effects on
Denim -
Stone Wash, Enzyme Wash, Combined
enzyme and stone wash, acid wash,
antique wash, ball blast, whiskering,
Sand blast, Ice wash.
Chapter 5.
Application of Nanotechnology in Textiles
Nanoscale – Definition, various
methods of manufacturing nano materials and
their characterization
Nanofibers - Manufacturing, properties
and uses of nanofibre,
Nanofinishes - Super hydrophobicity
and lotus effect, self cleaning, UV
protection, Antimicrobial finishes
Chapter 6.
Application of Plasma in Textiles
Concept, types of plasma and their
generation, Plasma treatment of textile for
water and oil repellency, Interfacial
engineering of functional textiles for
biomedical applications, plasma
modification of wool, plasma modification of
natural cellulosic fibers, characterization
of plasma treated textiles.
Chapter 7.
Development in Finishing
Various Low liquor and minimum
application techniques in textile finishing,
their advantages and limitations,
wrinkle free finishing – concept of wet and
moist cross linking, various
eco-friendly resin finishes, Concept of UV-A and
UV-B, factors affecting UV protection.
Various UV- protection finishes and
their evaluation, antimicrobial
finishes – mode of action, factors affecting,
various antimicrobial finishes.
Note: Term work for this
subject will be based on above syllabus.
Reference Books
1. Handbook of Textile processing
machinery by R.S. Bhagwat
2. Dyeing of polyester & its
blends by Prof. M. L. Gulrajani
3. Engineering in Textile coloration
by C. Duckworth
4. Norms for Textile Machinery –
N.T.C.
5. Technology of Printing by Dr. V.A.
Shenai
6. Technology of finishing by J.T.
Marsh
7. Energy Conservation in Industries –
Vol.I & II, Centre of Plant Engg.
Services Hydrabad.
8. Conventional Energy Technology – By
S.B. Pandya.
9. ATIRA – Circular Report June, 1988,
Mill Endavours to conserve
electricity by D.H. Shah, J.S.
Parajia.
10. Energy Consumption &
Conservation in Fibre Producing & Textile
Industries – Textile Progress Vol.13,
No.3.
11. Renewable Energy Resources by John
Twidell.
12. Economy Energy & Environment
in Textile Wet Processing by Editor
S.S. Trivedi.
13. Chemical after treatments of
textile by Marks, Atlas & Wooding.
14. Textile finishing by A.J. Hall.
15. Introduction to textile finishing
by J.T. Marsh.
16. Technology of finishing – Vol. X
by Dr. V.A. Shenai.
17. Chemical processing of
polyester/cellulosic blends by R.M. Mittal and
S.S. Trivedi.
18. Silk dyeing, printing and
finishing by Prof. M.L. Gulrajani.
19. Garment Finishing & Care
Labelling byS.S.Satsangi, Usha
Publishers,53-B/AC-IV, Shalimar Bagh,
New Delhi.
20. Stain Removing Techniques by
byS.S.Satsangi, Usha Publishers,53-
B/AC-IV, Shalimar Bagh, New Delhi.
21. Fabric Care by Noemia D’SOUZA, New
Age International Publishers,
Daryagang, New Delhi.
22. Plasma technologies for textiles
by R. Shishoo
M.TEXT.(TEXTILE
CHEMISTRY) SEMESTER-II
ENVIRONMENTAL
ENGINEERING
Lectures : 3 hrs/week
Assignment : 1 hr/ week
Theory Paper : 100 Marks
Term Work : 50 Marks
Subject Total : 150 Marks
Chapter 1.
Introduction to Eco System & Environment Management
Environmental problems and human
health, Risk assessment and risk
management, ecology and textiles,
Toxicological considerations of textile
processing. Definitions of
environment, ecology, pollution, Types of pollution
and effects on environment, general
waste categorization, effective pollution
prevention program
Chapter 2.
Environmental Management Systems
Importance of ISO - 14000 standards,
environmental policy, EMS planning,
Implementation, Checking of corrective
action, Concept of Okötex, GOTS.
Chapter 3. Noise
Pollution in Textile Industry
Noise Pollution and its control in
Textile Industry – Introduction, Noise in
Textile Industry – Effect of noise on
human beings – measurement of noise –
methods of reducing noise.
Chapter 4. Air
Pollution in Textile Industry
Classification and properties of air
pollutants, Sources of emission, Green
house gases, Behaviour and fate of air
pollutants, Effects of air pollution on
human health, vegetation, animals,
machinery and building.
Sources of air pollution in wet
processing, their levels, toxicity and effects on
atmosphere. Air pollution laws and
norms, Plume behavior, Analysis of air
pollutants, Measures to control air
pollution.
Chapter 5. Water
Pollution in Textile Industry
Sources of water, their nature and use
pattern, General types of water
pollutants and their effects, Factors
polluting water in textile wet processing in
each unit operation like desizing,
scouring, bleaching, dyeing, printing &
finishing. The volume of waste
generated and nature of the wastewater,
Effects of wet processing effluent
parameters on the environment.
M. Text. Revised Syllabus (Textile
Chemistry)
24
Chapter 6. Effluent
Treatments
Basic processes of wastewater
treatment, Basic factors to be considered for
waste water or effluent treatment.
Methods of Treatment of Textile effluent,
preliminary, primary, secondary and
tertiary treatments. Advancement in the
effluent treatment like reverse
osmosis, plasma technology, removal of
dissolved solids, removal of heavy
metals. Sludge disposal, Reuse of water
and cost of effluent treatment, Norms
of treated effluent. A typical design for
effluent treatment plant to meet the
norms laid down by Pollution Control
Board.
Chapter 7. Measures
to reduce effluent quantity
Measures to be taken into
consideration to improve the quality of the effluent
generated either by chemical
substitution, eco-friendly processing, process
modification, etc.
Note: Term work for
this subject will be based on above syllabus.
Reference Books
1. Environmental pollution control
engineering – C.S. Rao.
2. Best management practices for
pollution prevention in the textile
industry – Textiles committee, 1997.
3. Fundamentals of air pollution –
Richard W. Boubel, D. Fox etal.
4. Environmental issues – technology
options for textile industry – Book of
papers published by R.B. Chavan et.al
of IIT, New Delhi.
5. Ecology and textiles – V.A. Shenai.
6. Treatment of textile processing
effluents – N. Manivaskan.
7. Water & effluents in textile
mills – P.B. Jhala et.al. ATIRA.
8. Textiles energy and waste seminar –
proceedings from textile institute,
1997.
9. Economy Energy & Environment in
textile Wet Processing – ACT,
Edited by S.S. Trivedi.
10. Environmental Issues – Technology
option for Textile Industry Edited by
R. B. Chavan, Indian Journal of Fibre
& Textile Research Special Issue
- March, 2001.
11. Environmental Success – America
Textile Industry, AATCC Symposium
– 1996.
12. The Textile Industry: Achieving
Our Environmental Commitment –
AATCC Symposium – 1994.
13. Textile Energy & Waste Seminar
– Textile Institute, 1997.
M. Text. Revised Syllabus (Textile
Chemistry)
25
14. The Management Systems – Quality,
Environment, Health & Safety ISO
9001 : 2000, ISO 14001, OHSAS 18001 BY
Pranab Kr. Nag,
International Certification Services.
15. Water Supplies of the Treatment
and Disposal of Effluents by A.H. Little,
Textile Institute Monograph series.
16. Handbook of Environments, health
& safety by Herman Koren &
Michael Biseri
17. Ecology and textiles by Dr. V.A.
Shenai
18. Environmental issues – Technology
options for textile industry – book of
papers edited by Dr. R.B. Chavan
M.TEXT.(TEXTILE
CHEMISTRY) SEMESTER-II
HIGHTECH FIBRES-II
Lectures : 3 hrs/week
Assignment : 1 hr/ week
Theory Paper : 100 Marks
Term Work : 50 Marks
Subject Total : 150 Marks
Chapter – I :
Characterization
Principle & working procedure of
Gel permeable chromatography,
DSC, TGA, DTA, DMA, Light Scattering
& Ultra Centrifuge Technique.
Chapter- II :
Theories of Mechanical Properties :
Reaction- Rate theory – Stress –
Relaxation on Eyring’s model – creep
on Eyring’s model. Thermodynamic
equation of deformation – its application
to fibres.
Chapter – III :
Carbon Fibre :
Preparation – PAN based carbon fibres-
Pitch based carbon fibres-
Vapour grown carbon fibre – Carbon
nanotubes - Structure – Surface
properties – Mechanical & other
physical properties. Chemical properties.
Applications of carbon fibres – Carbon
fibre composites.
Chapter – IV : Glass
Fibre :
Introduction – Glass for fibres –
Fibre manufacture – Fibre finish –
Glass fibre properties – Fibre
assemblies – Composites – Design of fibre
glass composites.
Chapter – V :
Thermally Resistant Fibres :
Introduction – Aromatic polyamides
& polyimide – Semi carbon fibre –
Oxidised acrylic – Polybenzimidazole
(PBI), Polybenzoxazoles, PBO.
Chapter – VI :
Ceramic Fibres :
Introduction – Silicon Carbide based
fibres – Other non oxide fibres –
Alumina based fibres – Other Poly
crystalline Oxide fibres – Single crystal
oxide fibres.
Chapter – VII :
Aluminum Oxide Fibres :
Preparation & processes – Chemical
structure – Fibre structure –
Physical & Chemical properties –
Applications.
Note: Term work for
this subject will be based on above syllabus.
Reference Books :-
1) Hand Book of Fibre Science &
Technology- Vol-III Part B
2) New Fibres – Second Edition – T.
Hongu & Phillips- Wood Head
Publishing Ltd., Cambridge, England.
3) Advanced Fibres Spinning Technology
– Prof. T. Nakajima - Wood
Head Publishing Ltd., Cambridge,
England.
4) Progress in Textiles : Science
Vol.-II Textile Fibres Developments &
Innovations – Dr. V.K. Kothari, IAFL
Publication, New Delhi.
5) High Speed Fibre Spinning : Science
& Engineering Aspects – A.
Ziavicki & H. Kawai. A Wiley Inter
Science Publication.
6) High Performance Fibres – J.W.S.
Hearle, Wood Head Publishing Ltd.,
Cambridge, England.
7) Advances in Fibre Science : Dr.S.K.
Mukhopadhyay, The Textile
Institute, Manchester.
8) Physical Properties of Textile
Fibres – W.E. Morton & J.W.S. Hearle.
The Textile Institute, Manchester.
9) Kevlar Aramid Fibres – H.Yang –
John Wiley & Sons.
10) Mechanisms of Textile &
Laminated Composites – A.E. Bogdanovich &
C.M. Pastore – Chapman & Hall.
11) Manufactured Fibre Technology –
Dr.V.B. Gupta & Dr.V.K. Kothari,
Chapman & Hall.
12) Carbon Fibres – Jean Baptiste
Donnet & Roopchand Bansal –
International Fibre Science &
Technology Series.
M.TEXT.(TEXTILE
CHEMISTRY) SEMESTER-II
STATISTICS FOR
TEXTILE MILL MANAGEMENT
Lectures : 3 hrs. / Week
Assignment : 1 hr. / Week
Theory Paper : 100 Marks
Term Work : 50 Marks
Subject Total : 150 marks
1. Multivariate data
& its analysis:
Multiple and partial correlation,
measures of Multiple and partial
correlation, Examples for the data
with three variables only.
Multiple regression, planes of
regression, Examples for the data with
three variables only.
2. Analysis of
Variance:
One-way analysis of variance,
mathematical model, ANOVA table &
examples.
Two-way analysis of variance one
observation per cell & with m
observation per cell, Mathematical
models, ANOVA tables & examples.
3. Design of
Experiments:
Basic Designs: CRD & examples as
one-way, RBD & examples as
two-way. LSD & examples of LSD.
4. Factorial
Experiments:
2n factorial experiments: Introduction, Analysis
of 2n factorial
experiments. Examples for 2n factorial
experiments.
Introduction of 3n and higher order
factorial experiments.( No
examples)
Introduction of fractional factorial
experiments.( No examples)
Introduction of response surface
designs (No examples)
Taguchi techniques for reduction and
optimization in design of
experiments (No examples)
5. Linear programming
Problem:
Introduction, formulation of LPP,
graphical and simplex methods for
finding solutions of LPP. Examples.
6. Transportation
Problem:
Introduction, methods for finding
initial and optimum solutions of
transportation problem. Examples.
7. Assignment
problem:
Introduction, method for solving
assignment problem. Examples.
8. Network Analysis:
Programme Evaluation and Review
Techniques(PERT): Introduction,
Slack time critical path, Probability
of completion of projects.
Examples.
Ctitical path method (CPM):
Introduction, Time estimates, Floats,
Critical path. Examples.
Note: Term work for
this subject will be based on above syllabus.
REFERENCE BOOKS:-
1) Modern Elementary Statistics by J.
Fruend.
2) Mathematical Statistics by J.
Fruend.
3) Probability & Statistics for
engineers by Johnson.
4) Applied Statistics &
probability for engineers by Montgomery.
5) Experimental Designs by Cochran
& Cox.
6) Design of Experiments by
Montgomery.
M.TEXT.(TEXTILE
CHEMISTRY) SEMESTER-II
PROJECT PREPARATION,
APPRAISAL & IMPLEMENTATION
(ELECTIVE-II)
Lectures : 3 hrs/week
Assignment : 1 hr/ week
Theory Paper : 100 Marks
Term Work : 50 Marks
Subject Total : 150 Marks
1) Overview – Capital expenditure,
Phase of capital budgeting, Project
development cycle, Objectives of
investment, decision-making, Risk & return.
2) Identification of investment
opportunities – Governmental regulatory
framework – Generation & screening
of project ideas – Project identifications
for an existing company.
3) Market & demand analysis –
Information required for market & demand
analysis – demand forecasting methods
– market planning.
4) Technical Analysis – Material
inputs & utilities – Manufacturing process
/ technology – Plant capacity –
location & site – structures & civil works –
Machineries & equipments – Project
charts & layouts – Work schedule –
Need for tendering alternatives.
5) Financial Analysis – Cost of
Project – Means of finance – Estimation of
Sales & Production – Cost of
production – Working capital requirement &
financing – Profitability projections
– Break even point – Project cost flow
statements – Projected balance sheet –
Multi – year projection.
6) Time value of money – Future value
of single amount, Future value of
an annuity –Present value of single
amount – Present value of an annuity.
M. Text. Revised Syllabus (Textile
Chemistry)
31
7) Cost of Capital – Basic concepts –
Cost of debt – cost of preference
capital – cost of Equity Capital –
Weighted average cost of capital – Marginal
cost of capital-Cost of capital for a
new company.
8) Appraisal criteria – Urgency, Pay
back period – Accounting, Debt
service coverage ratio, Rate of
Return, Net present value – Internal rate of
return – Annual capital charge –
Investment appraisal in practice.
9) Analysis of Risk – Types &
measurement of project risk – Analytical
derivation or simple estimation –
Sensitivity Analysis – Scenario analysis –
Selection of a project-Risk analysis
in practice.
10) Project implementation – Forms of
project organization – Project
planning – project control – Human
aspects of project management – Prerequisites
for successful project implementation.
11) Review – Initial review,
performance evaluation.
Note: Term work for
this subject will be based on above syllabus.
REFERENCE BOOKS :-
1) Textile Project Management by A.
Ormerod, The Textile Institute
Publication.
2) Goal Directed Project Management by
E.S. Andersen, K.V. Grude &
Tor Hang, Coopers & Cybranl
Publication.
3) Project, Planning Analysis,
Selection Implementation & Review by
Prasanna Chandra, Tata McGraw Hill
Publishing Co. Ltd.,
4) Industrial Organisation & Engg.
Economics T.R. Banga & S.C. Sharma,
Khanna Publishers, Delhi.
M.TEXT.(TEXTILE
CHEMISTRY) SEMESTER-II
MANAGEMENT OF TEXTILE
PRODUCTION (ELECTIVE-II)
Lectures : 3 hrs/week
Assignment : 1 hr/week
Theory Paper : 100 Marks
Term Work : 50 Marks
Subject Total : 150 marks
Indian Textile
Industry:
Structure, production and exports. Textile Policy.
Sickness of Textile Industry- Analysis
and options. Essentials of production
management, production systems,
classification.
Material management: Role of material
management techniques, purchase
management, acceptance sampling and
inspection, vendor rating system,
inventory management.
Production, planning
and control:
types of production systems and
problems of planning and control,
product section design, process planning,
forecasting, planning of batch, mass
and job shop system. Machine
balancing. Layout and material
handling. Machine assignment and allocation
of jobs. Maintenance management:
maintenance concepts, maintenance
strategies, maintenance planning.
Productivity and improvement techniques.
Quality management: Introduction to
TPM/TQM, concepts of value and quality
assurance, total quality control,
quality circles, ISO 9000. Marketing
management: fundamental of industrial
marketing, industrial buyer behaviour
model.
Marketing: systems selling, role
of service, marketing planning and marketing
strategies, market research.
Enterprise resource
planning:
Role of information in managerial decision
making, information needs for various
levels of management, decision
makers, management information system,
resource monitoring and control.
Product mix. Case studies.
Note: Term work for
this subject will be based on above syllabus.
Reference Books
1) Essential of Management – by Harold
Koontz & Heinz, Weihrich – Tata
McGraw- Hill Publishing Company Ltd.,
New Delhi.
2) Advanced Cost & Management
Accounting by P.K. Sikdar – Viva
Books Pvt. Ltd., New Delhi.
3) Industrial Engineering &
Management by O.P. Khanna & A. Sarup,
Dhanapat Rai Publications (P) Ltd.,
Delhi.
4) Dynamics of Entrepreneurial
Development & Management by Vasant
Desai – Himalaya Publishing House –
Delhi.
5) How to Read a Balance Sheet – An
ILO Programmed Book – Oxford &
IBH Publishing Co. Pvt. Ltd., Delhi.
6) Enterpreneurial Development by S.S.
Khanta , S. chand & Company
Ltd., Delhi – 110 055.
7) Fundamentals of Marketing by W.J.
Stanton, M.J. Etzel B.J. Walker –
McGraw-Hill, Inc – New York, St.
Laouis etc.
8) Industrial Organisation &
Engineering Economics by S.C. Sharma &
T.R. Banga – Khanna Publishers – 2-B,
Nath Market, Nai Sorak, Delhi
– 110 006.
9) Marketing Management By Philip
Kotler – Prentice – Hall of India Pvt.
Ltd., New Delhi – 110 001.
M.TEXT.(TEXTILE
CHEMISTRY) SEMESTER-II
SEMINAR – II
Practical : 1 hr/ week
Term Work : 50 Marks
Subject Total : 50 Marks
Seminar - II shall be based on
tentative topic on dissertation such as review
paper on some specific well defined
area/specialized stream of Textile
Chemistry. Each student has to prepare
a write up of about 15 pages of “A4”
size sheets and submit it in duplicate
as the term work. The student has to
deliver a seminar talk in front of the
faculty members of the department and
his/her classmates. The faculty
members, based on the quality of the work
and preparation and understanding of
the candidate, shall do an assessment
of the seminar internally – jointly.
Some marks should be reserved for the
attendance of the student in the
seminars of the others students.
M.TEXT.(TEXTILE
CHEMISTRY) SEMESTER-III
SEMINAR – III
Practical : 1 hr/ week
Term Work : 50 Marks
Subject Total : 50 Marks
Seminar – III shall be based on the
work carried out for dissertation. This may
cover the point right from various
areas considered and analysis, the
relevance feasibility and scope of
work for finally selected topic, alternative
solution and appropriate solution.
Each student has to prepare a write up of
about 20 pages of “A4” size sheets and
submit it in duplicate as the term
work. The student has to deliver a
seminar talk in front of the faculty
members of the department and his
classmates. The faculty members of the
department shall do an assessment,
based on the quality of the work and
preparation and understanding of the
candidate. Some marks should be
reserved for the attendance of the
student in the seminars of the others
students.
M.TEXT.(TEXTILE
CHEMISTRY) SEMESTER-III
DISSERTATION
Practical : 4 hrs/ week
Term Work : 100 Marks
Subject Total : 100 Marks
The term work under this, submitted by
the student shall include –
1. Work diary maintained by the
student and counter signed by his guide.
2. The contents of work diary shall
reflect the efforts taken by candidate for
(a) Searching the suitable project
work
(b) Visits to different factories or
organizations
(c) Brief report of journals and
various papers referred
(d) Brief report of web sites seen for
project work
(e) The brief of feasibility studies
carried to come to final conclusion
(f) Rough sketches
(g) Design calculation etc. etc.
carried by the student.
The student has to make a presentation
in front of panel of experts in addition
to guide as decided by department
head.
M.TEXT.(TEXTILE
CHEMISTRY) SEMESTER-IV
SEMINAR – IV
Practical : 1 hr/ week
Term Work : 50 Marks
Subject Total : 50 Marks
Seminar – IV shall be based on the
progress of the dissertation work carried
out. This may cover the various
practicals / survey work done. Each student
has to prepare a write up of about 20
pages of “A4” size sheets and submit it
in duplicate as the term work. The
student has to deliver a seminar talk in
front of the faculty members of the
department and his classmates. The
faculty members of the department
shall do an assessment, based on the
quality of the work and preparation
and understanding of the candidate. Some
marks should be reserved for the
attendance of the student in the seminars of
the others students.
M.TEXT.(TEXTILE
CHEMISTRY) SEMESTER-IV
DISSERTATION
Practical : 4 hrs/ week
Term Work : 50 Marks
Oral Exam. : 200 Marks
Subject Total : 250 Marks
The dissertation submitted by the
student on topic already approved by
university authorities on the basis of
initial synopsis submitted by the
candidate shall be according to
following guidelines – Format of dissertation
report – The dissertation work report
shall be typed with double space on A4
bond paper. The total number of pages
shall not be more than 150 and not
less than 60. Figures, graphs,
annexures etc. be added as per requirement.
The report should be written in the
following format.
1. Title page
2. Certificate
3. Acknowledgement
4. Index
5. Abstract
6. Introduction
7. Literature survey
8. Plan of work
9. Results and discussions
10. Conclusions
11. References
12. Annexure
D.K.T.E.SOCIETY’S
TEXTILE & ENGINEERING INSTITUTE, ICHALKARANJI.
Equivalence of
subject at M.Text. to Revised M.Text. Course.
M.TEXT.- T.C.
(TEXTILE CHEMISTRY) SEMESTER-I
SR. NO. COURSE PRE-REVISED SUBJECTS SEMESTER REVISED SUBJECTS SEMESTER
1. M.Text.(TC) Advanced Textile
Chemical Processing-I I Advanced Textile Chemical Processing-I I
2. M.Text.(TC) Hightech Fibres-I I
Hightech Fibres-I I
3. M.Text.(TC) Advanced Computer
Applications in Textiles I Advanced Computer Applications in Textiles I
4. M.Text.(TC) Physical Methods of
Analysis & Eco-Testing I (Elective-I)Physical Methods of Analysis &
Eco-Testing I
5. M.Text.(TC) ---- -- Elective-I I
6 M.Text. (TC) Seminar-I I Seminar-I I
M.TEXT.- T.C.
(TEXTILE CHEMISTRY) SEMESTER-II
SR. NO. COURSE PRE-REVISED SUBJECTS SEMESTER REVISED SUBJECTS SEMESTER
1. M.Text.(TC) Advanced Textile
Chemical Processing-II II Advanced Textile Chemical Processing-II II
2. M.Text.(TC) Environmental
Engineering II Environmental Engineering II
3. M.Text.(TC) Hightech Fibres-II II
Hightech Fibres-II II
4. M.Text. (TC) Statistics & Design
of Experiments II Statistics for Textile Mill II Management
5. M.Text.(TC) Project Preparation,
Appraisal & Implementation II Elective-II (Project Preparation, Appraisal
& Implementation) II
6. M.Text.(TC) Seminar-II II Seminar-II
II
M.TEXT.- T.T.
(TEXTILE CHEMISTRY) SEMESTER-III
SR. NO. COURSE PRE-REVISED SUBJECTS SEMESTER REVISED SUBJECTS SEMESTER
1. M.Text.(TC) Seminar-III III
Seminar-III III
2. M.Text.(TC) Dissertation III
Dissertation III
M.TEXT.- T.C.
(TEXTILE CHEMISTRY) SEMESTER-IV
SR. NO. COURSE PRE-REVISED SUBJECTS SEMESTER REVISED SUBJECTS SEMESTER
1. M.Text.(TC)
Seminar-IV
IV
Seminar-IV IV
2. M.Text.(TC)
Dissertation IV Dissertation IV
