Product Description

Showcasing vital engineering applications to transient and dynamic pertubations of macromolecular materials, structural recovery’s role in mechanical responses in the glassy state, and viscoelastic parameters that condition the non-Newtonian behaviour of polymers, this work presents a systematic account of the responses of macromolecular materials to mechanical force fields. It focuses on the most important features of the linear stress-strain relationships for ideal solids and liquids. From Amazon.

Preface

Structure of Polymers

Crystalline and Amorphous States in Polymers

Rubber Elasticity

Stress - Strain Relations for Ideal Solids and Ideal Liquids

Linear Viscoelasticity and Viscoelastic Functions

Dynamic Viscoelastic Functions

Experimental Determination of Viscoelastic Properties

Viscoelastic Behavior of Polymers Above T[subscript g]

~Censored~ and Relaxation Spectra

Viscoelastic Models

Molecular Models of Viscoelastic Polymers

Viscoelasticity of Glassy and Semicrystalline Polymers

Flow Behavior of Polymer Melts and Solutions

Yield Crazing and Fracture

Reinforced Polymers

Multiaxial Analysis of Linear Viscoelastic Stress

Flexion and Torsion of Viscoelastic Beams and Rods

Laplace Transformation

Properties of the Laplace Transformation

Inverse of the Laplace Transformation

Carson Transformation

Fourier Transformation

Stieltjes Transformation

Table of Laplace Transformations

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