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Mechanical properties of solid polymers / / I.M. Ward, J. Sweeney
Mechanical properties of solid polymers / / I.M. Ward, J. Sweeney
Autore Ward I. M (Ian Macmillan), <1928->
Edizione [Third edition]
Pubbl/distr/stampa Chichester, West Sussex, : Wiley, 2013
Descrizione fisica 1 online resource (477 p.)
Disciplina 620.1/9204292
620.19204292
Altri autori (Persone) SweeneyJ (John)
Soggetto topico Polymers - Mechanical properties
Polímers - Propietats mecàniques
ISBN 9781119967125
1-119-96712-0
1-299-19019-7
1-119-96711-2
1-118-41319-9
Classificazione TEC009010
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto 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
5.3.1 Experimental Patterns for G1, G2 and so on as a Function of Frequency
Record Nr. UNINA-9910141478103321
Ward I. M (Ian Macmillan), <1928->  
Chichester, West Sussex, : Wiley, 2013
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Mechanical properties of solid polymers / / I.M. Ward, J. Sweeney
Mechanical properties of solid polymers / / I.M. Ward, J. Sweeney
Autore Ward I. M (Ian Macmillan), <1928->
Edizione [Third edition]
Pubbl/distr/stampa Chichester, West Sussex, : Wiley, 2013
Descrizione fisica 1 online resource (477 p.)
Disciplina 620.1/9204292
620.19204292
Altri autori (Persone) SweeneyJ (John)
Soggetto topico Polymers - Mechanical properties
Polímers - Propietats mecàniques
ISBN 9781119967125
1-119-96712-0
1-299-19019-7
1-119-96711-2
1-118-41319-9
Classificazione TEC009010
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto 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
5.3.1 Experimental Patterns for G1, G2 and so on as a Function of Frequency
Record Nr. UNINA-9910830923303321
Ward I. M (Ian Macmillan), <1928->  
Chichester, West Sussex, : Wiley, 2013
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Mechanical properties of solid polymers / / I.M. Ward, J. Sweeney
Mechanical properties of solid polymers / / I.M. Ward, J. Sweeney
Autore Ward I. M (Ian Macmillan), <1928->
Edizione [Third edition]
Pubbl/distr/stampa Chichester, West Sussex, : Wiley, 2013
Descrizione fisica 1 online resource (477 p.)
Disciplina 620.1/9204292
620.19204292
Altri autori (Persone) SweeneyJ (John)
Soggetto topico Polymers - Mechanical properties
Polímers - Propietats mecàniques
ISBN 9781119967125
1-119-96712-0
1-299-19019-7
1-119-96711-2
1-118-41319-9
Classificazione TEC009010
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto 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
5.3.1 Experimental Patterns for G1, G2 and so on as a Function of Frequency
Record Nr. UNINA-9910841270203321
Ward I. M (Ian Macmillan), <1928->  
Chichester, West Sussex, : Wiley, 2013
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui