Introduction to Molecular Motion in Polymers
A valuable primer to help students and workers understand concepts and relationships which are developed more fully in other specialist texts on polymer molecular physics, Introduction to Molecular Motion in Polymers explains how molecular movement is determined by chemical structure, then how the motion controls the physical and technological properties of polymer materials. It is based upon the fact that the physical properties of polymeric materials are very dependent on various modes of motion of the molecules, and these in turn depend on the chemical structure. The reader is thus introduced to the concepts of molecular movement in polymers and the connections with causative chemical structure on the one hand and resulting bulk physical and technological behaviour on the other. The approach is non-mathematical, but is molecularly based and will enable the reader to understand the detailed chemical and rigorous mathematical discussions of more advanced texts. The book integrates polymer chemistry with polymer physics and polymer engineering, a fusion that is so often lacking in polymer education. This interdisciplinary treatment is given first to the mechanical properties of plastics and rubbers, since these are the most important in use. Closely connected to molecular motion, and also affecting physical behaviour, is the morphology of a bulk material. This, too, is accommodated along with the treatment of glasses and rubbers. Next in importance comes electrical behaviour, and in particular dielectric or insulation uses. The book also covers acoustic behaviour, light initiated or photo-properties and diffusion phenomena. Throughout, emphasis is placed on the way that time, temperature and frequency relationships apply in a similar way to all these phenomena.
1102850684
Introduction to Molecular Motion in Polymers
A valuable primer to help students and workers understand concepts and relationships which are developed more fully in other specialist texts on polymer molecular physics, Introduction to Molecular Motion in Polymers explains how molecular movement is determined by chemical structure, then how the motion controls the physical and technological properties of polymer materials. It is based upon the fact that the physical properties of polymeric materials are very dependent on various modes of motion of the molecules, and these in turn depend on the chemical structure. The reader is thus introduced to the concepts of molecular movement in polymers and the connections with causative chemical structure on the one hand and resulting bulk physical and technological behaviour on the other. The approach is non-mathematical, but is molecularly based and will enable the reader to understand the detailed chemical and rigorous mathematical discussions of more advanced texts. The book integrates polymer chemistry with polymer physics and polymer engineering, a fusion that is so often lacking in polymer education. This interdisciplinary treatment is given first to the mechanical properties of plastics and rubbers, since these are the most important in use. Closely connected to molecular motion, and also affecting physical behaviour, is the morphology of a bulk material. This, too, is accommodated along with the treatment of glasses and rubbers. Next in importance comes electrical behaviour, and in particular dielectric or insulation uses. The book also covers acoustic behaviour, light initiated or photo-properties and diffusion phenomena. Throughout, emphasis is placed on the way that time, temperature and frequency relationships apply in a similar way to all these phenomena.
44.99 In Stock
Introduction to Molecular Motion in Polymers

Introduction to Molecular Motion in Polymers

Introduction to Molecular Motion in Polymers

Introduction to Molecular Motion in Polymers

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$44.99 

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Overview

A valuable primer to help students and workers understand concepts and relationships which are developed more fully in other specialist texts on polymer molecular physics, Introduction to Molecular Motion in Polymers explains how molecular movement is determined by chemical structure, then how the motion controls the physical and technological properties of polymer materials. It is based upon the fact that the physical properties of polymeric materials are very dependent on various modes of motion of the molecules, and these in turn depend on the chemical structure. The reader is thus introduced to the concepts of molecular movement in polymers and the connections with causative chemical structure on the one hand and resulting bulk physical and technological behaviour on the other. The approach is non-mathematical, but is molecularly based and will enable the reader to understand the detailed chemical and rigorous mathematical discussions of more advanced texts. The book integrates polymer chemistry with polymer physics and polymer engineering, a fusion that is so often lacking in polymer education. This interdisciplinary treatment is given first to the mechanical properties of plastics and rubbers, since these are the most important in use. Closely connected to molecular motion, and also affecting physical behaviour, is the morphology of a bulk material. This, too, is accommodated along with the treatment of glasses and rubbers. Next in importance comes electrical behaviour, and in particular dielectric or insulation uses. The book also covers acoustic behaviour, light initiated or photo-properties and diffusion phenomena. Throughout, emphasis is placed on the way that time, temperature and frequency relationships apply in a similar way to all these phenomena.

Product Details

ISBN-13: 9781849952729
Publisher: Whittles Publishing
Publication date: 07/05/2016
Sold by: Barnes & Noble
Format: eBook
File size: 18 MB
Note: This product may take a few minutes to download.

Table of Contents

Introduction
Chemical structure of polymers
Molecular motion in polymers
The glass to rubber transition
The glass state
Crystallinity
The rubber state
The liquid/melt state
Drawing and fracture
Dynamic mechanical relaxation
Acoustic (ultrasonic) relaxation
Dielectric relaxation
Photophysics of polymers (excited state relaxation)
Conductivity in polymer systems
Diffusion in polymers
Methods of studying molecular motion

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