This note covers the following topics: Classification of polymers,
Comparison between Thermoplastics and Thermosetting Polymer, Natural and
Synthetic polymers, Organic Polymers, InOrganic Polymers,Cis-trans Isomerism in
Polymer, Glass Transition temperature and plasticizers, Crystallinity Of
Polymer, Step Polymerisation Orstep Growth Polymerisation Or
Polycondensation, Kinetics Of polymerization Without Strong Catalyst, Molecular
Weight Control Of Linear Polymerisation.
Author(s): Veer Surendra Sai University of
Technology
This note offers
and overview of engineering analysis and design techniques for synthetic
polymers. Treatment of materials properties selection, mechanical
characterization, and processing in design of load-bearing and
environment-compatible structures are covered.
This note explains
the following topics: Introduction to Polymer Science, Chain Structure and
Configuration, Molecular Weights and Sizes, Concentrated Solutions and Phase
Separation Behavior, The Amorphous State, The Crystalline State, Polymers in the
Liquid Crystalline State, Glass-Rubber Transition Behavior, Cross-linked
Polymers and Rubber Elasticity, Polymer Viscoelasticity and Rheology, Mechanical
Behavior of Polymer.
This note explains the
following topics: Macromolecules in solution, Real polymer chains, Polymer
chains and excluded volume effects, Partial molar and partial specific
quantities, Flory-Krigbaum theory of dilute polymer solutions,
Staudinger-Mark-Houwinks equation, Solutions of macromolecules, Ultra
Centrifugation.
This note covers the following topics: Polymer Synthesis,
Stereospecific Polymerization, Copolymerization, Polymer Solutions,
Thermoplastic and Thermosetting Polymers, Mechanism Properties of Polymers,
Polyurethane, Rubber Elasticity, Testing and Analysis of Polymers, Polymer
Degradation.
This book
explains the concepts and features that are relevant to the adsorption of
neutral and charged polymers at equilibrium, including the type of
polymer/surface interaction, the solvent quality, the characteristics of the
surface, and the polymer structure.
This note covers the following topics: Basics of radiation
chemistry in the real world: nanoparticles in aqueous suspension, Hydrogen
generation in transuranic waste storage containers, Radiation chemistry of spurs
in polymers, Radiation polymerization in solution, Radiation-assisted
compatibilization of polymers, Nanopolymers and radiation, Electron beam
grafting of polymers, Degradation effects in polymers.