03626nam 2200613 a 450 991081479160332120230725045525.01-283-14464-69786613144645981-4313-04-1(CKB)3360000000001387(EBL)731295(OCoLC)740435802(SSID)ssj0000524931(PQKBManifestationID)12175939(PQKBTitleCode)TC0000524931(PQKBWorkID)10486775(PQKB)11585011(MiAaPQ)EBC731295(WSP)00001182 (Au-PeEL)EBL731295(CaPaEBR)ebr10480267(CaONFJC)MIL314464(EXLCZ)99336000000000138720100927d2011 uy 0engurbn|||||||||txtccrPolymer viscoelasticity basics, molecular theories, experiments and simulations /Yn-Hwang Lin2nd ed.Singapore ;Hackensack, N.J. World Scientificc20111 online resource (350 p.)Description based upon print version of record.981-4313-03-3 Includes bibliographical references and index.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 Experiments11. 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 Chains17. 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; IndexThis book covers in great detail the Rouse-segment-based molecular theories in polymer viscoelasticity - the Rouse theory and the extended reptation theory (based on the framework of the Doi-Edwards theory) - that have been shown to explain experimental results in a consistently quantitative way. The explanation for the 3.4 power law of viscosity, quantitative line-shape analyses of viscoelastic responses and agreements between different sorts of viscoelastic responses, the consistency between the viscoelasticity and diffusion results, the clarification of the onset of entangelement,PolymersViscosityViscoelasticityPolymersViscosity.Viscoelasticity.620.1/9204232Lin Y.-H1631270MiAaPQMiAaPQMiAaPQBOOK9910814791603321Polymer viscoelasticity3969994UNINA