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Polymer Viscoelasticity: Basics, Molecular Theories, Experiments And Simulations (2nd Edition)
Basics, Molecular Theories, Experiments and Simulations
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- 440 pages
- English
- PDF
- Available on iOS & Android
eBook - PDF
Polymer Viscoelasticity: Basics, Molecular Theories, Experiments And Simulations (2nd Edition)
Basics, Molecular Theories, Experiments and Simulations
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Table of contents
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Yes, you can access Polymer Viscoelasticity: Basics, Molecular Theories, Experiments And Simulations (2nd Edition) by Yn-hwang Lin in PDF and/or ePUB format, as well as other popular books in Sciences biologiques & Science générale. We have over one million books available in our catalogue for you to explore.
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Table of contents
- Contents
- Preface
- Preface to the Second Edition
- 1. Conformation of Polymer Chains
- 2. Rubber Elasticity
- 3. Polymer Chain Dynamics
- 4. Linear Viscoelasticity
- 5. Stress and Strain
- 6. Molecular Theory of Polymer Viscoelasticity — Elastic Dumbbell Model
- 7. Molecular Theory of Polymer Viscoelasticity—The Rouse Model
- 8. Molecular Theory of Polymer Viscoelasticity — Entanglement and the Doi–Edwards (Reptation) Model
- 9. Molecular Theory of Polymer Viscoelasticity—The Extended Reptation Model
- 10. Comparison of the Extended Reptation Theory (ERT) with Experiments
- 11. ERT vs. Rouse Theory, Concentration Dependence and Onset of Entanglement, and Tube Dilation
- 12. Molecular Theory of Polymer Viscoelasticity — Nonlinear Relaxation Modulus of Entangled Polymers
- 13. Number of Entanglement Strands per Cubed Entanglement Distance, nt
- 14. Glass Transition-Related Thermorheological Complexity in Polystyrene Melts
- 15. The Basic Mechanism for the Thermorheological Complexity in Polystyrene Melts
- 16. Monte Carlo Simulations of Stress Relaxation of Rouse Chains
- 17. Monte Carlo Simulations of Stress Relaxation of Fraenkel Chains — Linear Viscoelasticity of Entanglement-Free Polymers
- 18. Monte Carlo Simulations of Stress Relaxation of Fraenkel Chains — Nonlinear Viscoelasticity of Entanglement-Free Polymers
- Index