Physical chemistry of polymer rheology
著者
書誌事項
Physical chemistry of polymer rheology
(Springer series in chemical physics, 72)(Physics and astronomy online library)
Kodansha , Springer, c2003
- Kodansha
- Springer
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注記
Includes bibliographical references and index
イースタン・ブック・サーヴィス(発売) by book jacket
内容説明・目次
内容説明
Rheology is the science and technology that deals with the deformation of polymeric or plastic materials. In this monograph the field of polymer rheology is explained with emphasis on the chemical theory. The book provides basic information on rheology for nonspecialists and gives clear explanations of the various phenomena. The author has developed a new theory of thermodynamics and kinetics using a model of multi-size pseudo crosslinks that provides a comprehensive principle to show how links in chain molecules affect the melting temperatures and determine polymer properties such as viscoelasticity, melt viscosity and elastic and plastic behaviour of bulk polymers. The theory can be extended to include the strength of rubber and plastics, active fillers and adhesion, friction and abrasion.
目次
From the contents: Thermodynamics of Dilute Polymer Solutions.- Transition Temperatures.- Mechano- and Hydrodynamics.- Rubber Elasticity.- Molecular Dynamics of Viscoelasticity.- Accounts of Viscoelasticity with the Pseudo Crosslink Model.- Rheology for Large Deformation.- Gel and Suspension.- Strength of Rubber and Active Filler.- Strength of Plastics and Fibers.- Adhesives.- Friction and Abrasion of Rubber.- Polymer Blends.- New Block Copolymers.- Pseudo Crosslink Model - A New Thermodynamics and Kinetics of Chain Molecules.- Theory of Glass Transition.- Theory of Melting and Softening.- Theory of Effect of Polymer Glass Transition Temperature.- Theory of Viscosity and Diffusion.- Theory of Viscoelasticity.- Theory of Rheology of Bulk Polymers.- Theory and Elasticity of Rubber and Cohesion.- Theory of Strength of Vulcanized Rubber.- Theory of Active Filler.- Theory of Impact Strength of Plastics.- Theory of Strength of Fiber and Ultimate Strength.
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