#1
August 20th, 2016, 08:42 AM
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Download VTU Syllabus
Can you provide me the syllabus of B.E in Textile Engineering & Silk Technology III Semester as offered by VTU or Visvesvaraya Technological University, Belgaum?
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#2
August 20th, 2016, 10:03 AM
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Re: Download VTU Syllabus
The syllabus of B.E in Textile Engineering & Silk Technology III Semester as offered by VTU or Visvesvaraya Technological University, Belgaum is as follows: TEXTILE POLYMER SCIENCE SEMESTER - III MODULE 1: Introduction and definition of monomers and polymers. History and Classification of polymers. Characteristics of fibre forming polymers and their general applications. Study of synthesis of polymers by chain, step and co-ordination polymerization. Study of various types of initiators for addition polymerization. Comparison of different types of polymerization methods. MODULE 2: Co-polymerization - Concept of co-polymerization, reactivity ratios in Co-polymerization. Kinetics of polymerization - estimation of kinetic chain length, illustration of effect of various parameters on kinetics of polymerization. Functionality in polymers. Carothers equation and extent of polymerization. Techniques of polymerization, comparison of various Techniques. MODULE 3: Rheology of polymers - Define Newtonian and non-Newtonian Fluids. Basic equations related to fluid flow, capillary flow. Characteristics of polymeric solutions. Thermo dynamics of polymer solutions. Analysis of Mechanical and tensile behaviour of polymers. Time dependent mechanical and temperature dependent mechanical behavior. Study of Maxwel’s, Kelvin’s & Burger’s Models. MODULE 4: Concepts of avg. molecular weight and molecular weight distribution. Determination of molecular weight of polymers using end group analysis, osmometry, viscometry and gel permeation chromatography. Importance of molecular weight. Molecular weight differences for fibers & plastics. MODULE 5: Chemistry of polymer degradation - various types of degradation - oxidative, mechanical, Photo and thermal degradation. Use of Inhibitors and anti-oxidants to control polymer degradation. Thermal analysis of polymers - glass transition temperature of polymers. Determination of glass transition temperature. Free volume concept. Study of thermal characterization by DSC, DTA, TGA and TMA |