Mechanical properties of solid polymers.
Ward, I. M. 1928-
Mechanical properties of solid polymers. - Third edition / Ian I. Ward, School of Physics and Astronomy, Leeds University, Leeds, UK, John Sweeney, School of Engineering, Design and Technology, University of Bradford, Bradford, UK. - 1 online resource.
Includes bibliographical references and index.
Mechanical Properties of Solid Polymers; Contents; Preface; 1 Structure of Polymers; 1.1 Chemical Composition; 1.1.1 Polymerisation; 1.1.2 Cross-Linking and Chain-Branching; 1.1.3 Average Molecular Mass and Molecular Mass Distribution; 1.1.4 Chemical and Steric Isomerism and Stereoregularity; 1.1.5 Liquid Crystalline Polymers; 1.1.6 Blends, Grafts and Copolymers; 1.2 Physical Structure; 1.2.1 Rotational Isomerism; 1.2.2 Orientation and Crystallinity; References; Further Reading; 2 The Mechanical Properties of Polymers: General Considerations; 2.1 Objectives. 2.2 The Different Types of Mechanical Behaviour2.3 The Elastic Solid and the Behaviour of Polymers; 2.4 Stress and Strain; 2.4.1 The State of Stress; 2.4.2 The State of Strain; 2.5 The Generalised Hooke's Law; References; 3 The Behaviour in the Rubber-Like State: Finite Strain Elasticity; 3.1 The Generalised Definition of Strain; 3.1.1 The Cauchy-Green Strain Measure; 3.1.2 Principal Strains; 3.1.3 Transformation of Strain; 3.1.4 Examples of Elementary Strain Fields; 3.1.5 Relationship of Engineering Strains to General Strains; 3.1.6 Logarithmic Strain; 3.2 The Stress Tensor. 3.3 The Stress-Strain Relationships3.4 The Use of a Strain Energy Function; 3.4.1 Thermodynamic Considerations; 3.4.2 The Form of the Strain Energy Function; 3.4.3 The Strain Invariants; 3.4.4 Application of the Invariant Approach; 3.4.5 Application of the Principal Stretch Approach; References; 4 Rubber-Like Elasticity; 4.1 General Features of Rubber-Like Behaviour; 4.2 The Thermodynamics of Deformation; 4.2.1 The Thermoelastic Inversion Effect; 4.3 The Statistical Theory; 4.3.1 Simplifying Assumptions; 4.3.2 Average Length of a Molecule between Cross-Links. 4.3.3 The Entropy of a Single Chain4.3.4 The Elasticity of a Molecular Network; 4.4 Modifications of Simple Molecular Theory; 4.4.1 The Phantom Network Model; 4.4.2 The Constrained Junction Model; 4.4.3 The Slip Link Model; 4.4.4 The Inverse Langevin Approximation; 4.4.5 The Conformational Exhaustion Model; 4.4.6 The Effect of Strain-Induced Crystallisation; 4.5 The Internal Energy Contribution to Rubber Elasticity; 4.6 Conclusions; References; Further Reading; 5 Linear Viscoelastic Behaviour; 5.1 Viscoelasticity as a Phenomenon; 5.1.1 Linear Viscoelastic Behaviour; 5.1.2 Creep. 5.1.3 Stress Relaxation5.2 Mathematical Representation of Linear Viscoelasticity; 5.2.1 The Boltzmann Superposition Principle; 5.2.2 The Stress Relaxation Modulus; 5.2.3 The Formal Relationship between Creep and Stress Relaxation; 5.2.4 Mechanical Models, Relaxation and Retardation Time Spectra; 5.2.5 The Kelvin or Voigt Model; 5.2.6 The Maxwell Model; 5.2.7 The Standard Linear Solid; 5.2.8 Relaxation Time Spectra and Retardation Time Spectra; 5.3 Dynamical Mechanical Measurements: The Complex Modulus and Complex Compliance.
"A substantially updated version of the previous 1983, combined with material from the highly regarded 2004 edition with the detailed mechanics of the first edition. Providing an updated and comprehensive account of the properties of solid polymers, the book covers all aspects of mechanical behaviour. This includes finite elastic behavior, linear viscoelasticity and mechanical relaxations, mechanical anisotropy, non-linear viscoelasicity, yield behavior and fracture. New to this edition is coverage of polymer nanocomposites, and molecular interpretations of yield, e.g. Bowden, Young, and Argon. The book begins by focusing on the structure of polymers, including their chemical composition and physical structure. It goes on to discuss the mechanical properties and behaviour of polymers, the statistical molecular theories of the rubber-like state and describes aspects of linear viscoelastic behaviour, its measurement, and experimental studies. Later chapters cover composites and experimental behaviour, relaxation transitions, stress and yielding. The book concludes with a discussion of breaking phenomena"-- "Will combine material from the highly regarded 2004 edition with the detailed mechanics of the first edition"--
9781118413197 1118413199 9781118413203 1118413202 9781119967118 1119967112 9781119967125 1119967120
2012029823
Polymers--Mechanical properties.
Polymers--Mechanical properties.
TECHNOLOGY & ENGINEERING--Chemical & Biochemical.
TECHNOLOGY & ENGINEERING--Chemical & Biochemical.
Polymers--Mechanical properties.
Electronic books.
TA455.P58
620.1/9204292
Mechanical properties of solid polymers. - Third edition / Ian I. Ward, School of Physics and Astronomy, Leeds University, Leeds, UK, John Sweeney, School of Engineering, Design and Technology, University of Bradford, Bradford, UK. - 1 online resource.
Includes bibliographical references and index.
Mechanical Properties of Solid Polymers; Contents; Preface; 1 Structure of Polymers; 1.1 Chemical Composition; 1.1.1 Polymerisation; 1.1.2 Cross-Linking and Chain-Branching; 1.1.3 Average Molecular Mass and Molecular Mass Distribution; 1.1.4 Chemical and Steric Isomerism and Stereoregularity; 1.1.5 Liquid Crystalline Polymers; 1.1.6 Blends, Grafts and Copolymers; 1.2 Physical Structure; 1.2.1 Rotational Isomerism; 1.2.2 Orientation and Crystallinity; References; Further Reading; 2 The Mechanical Properties of Polymers: General Considerations; 2.1 Objectives. 2.2 The Different Types of Mechanical Behaviour2.3 The Elastic Solid and the Behaviour of Polymers; 2.4 Stress and Strain; 2.4.1 The State of Stress; 2.4.2 The State of Strain; 2.5 The Generalised Hooke's Law; References; 3 The Behaviour in the Rubber-Like State: Finite Strain Elasticity; 3.1 The Generalised Definition of Strain; 3.1.1 The Cauchy-Green Strain Measure; 3.1.2 Principal Strains; 3.1.3 Transformation of Strain; 3.1.4 Examples of Elementary Strain Fields; 3.1.5 Relationship of Engineering Strains to General Strains; 3.1.6 Logarithmic Strain; 3.2 The Stress Tensor. 3.3 The Stress-Strain Relationships3.4 The Use of a Strain Energy Function; 3.4.1 Thermodynamic Considerations; 3.4.2 The Form of the Strain Energy Function; 3.4.3 The Strain Invariants; 3.4.4 Application of the Invariant Approach; 3.4.5 Application of the Principal Stretch Approach; References; 4 Rubber-Like Elasticity; 4.1 General Features of Rubber-Like Behaviour; 4.2 The Thermodynamics of Deformation; 4.2.1 The Thermoelastic Inversion Effect; 4.3 The Statistical Theory; 4.3.1 Simplifying Assumptions; 4.3.2 Average Length of a Molecule between Cross-Links. 4.3.3 The Entropy of a Single Chain4.3.4 The Elasticity of a Molecular Network; 4.4 Modifications of Simple Molecular Theory; 4.4.1 The Phantom Network Model; 4.4.2 The Constrained Junction Model; 4.4.3 The Slip Link Model; 4.4.4 The Inverse Langevin Approximation; 4.4.5 The Conformational Exhaustion Model; 4.4.6 The Effect of Strain-Induced Crystallisation; 4.5 The Internal Energy Contribution to Rubber Elasticity; 4.6 Conclusions; References; Further Reading; 5 Linear Viscoelastic Behaviour; 5.1 Viscoelasticity as a Phenomenon; 5.1.1 Linear Viscoelastic Behaviour; 5.1.2 Creep. 5.1.3 Stress Relaxation5.2 Mathematical Representation of Linear Viscoelasticity; 5.2.1 The Boltzmann Superposition Principle; 5.2.2 The Stress Relaxation Modulus; 5.2.3 The Formal Relationship between Creep and Stress Relaxation; 5.2.4 Mechanical Models, Relaxation and Retardation Time Spectra; 5.2.5 The Kelvin or Voigt Model; 5.2.6 The Maxwell Model; 5.2.7 The Standard Linear Solid; 5.2.8 Relaxation Time Spectra and Retardation Time Spectra; 5.3 Dynamical Mechanical Measurements: The Complex Modulus and Complex Compliance.
"A substantially updated version of the previous 1983, combined with material from the highly regarded 2004 edition with the detailed mechanics of the first edition. Providing an updated and comprehensive account of the properties of solid polymers, the book covers all aspects of mechanical behaviour. This includes finite elastic behavior, linear viscoelasticity and mechanical relaxations, mechanical anisotropy, non-linear viscoelasicity, yield behavior and fracture. New to this edition is coverage of polymer nanocomposites, and molecular interpretations of yield, e.g. Bowden, Young, and Argon. The book begins by focusing on the structure of polymers, including their chemical composition and physical structure. It goes on to discuss the mechanical properties and behaviour of polymers, the statistical molecular theories of the rubber-like state and describes aspects of linear viscoelastic behaviour, its measurement, and experimental studies. Later chapters cover composites and experimental behaviour, relaxation transitions, stress and yielding. The book concludes with a discussion of breaking phenomena"-- "Will combine material from the highly regarded 2004 edition with the detailed mechanics of the first edition"--
9781118413197 1118413199 9781118413203 1118413202 9781119967118 1119967112 9781119967125 1119967120
2012029823
Polymers--Mechanical properties.
Polymers--Mechanical properties.
TECHNOLOGY & ENGINEERING--Chemical & Biochemical.
TECHNOLOGY & ENGINEERING--Chemical & Biochemical.
Polymers--Mechanical properties.
Electronic books.
TA455.P58
620.1/9204292