
The Enormous Size Of Polymer Molecules Causes Their Molecular Motions To Span A Broad Range Of Length Scales And Give Rise To Viscoelastic Behaviour. This Rate-dependence Of The Properties Is A Predominant Characteristic Of Soft Materials (rubbers, Biopolymers, Lubricants, Adhesives, Etc.). Improving The Performance And Developing New Applications For Soft Materials Require An Understanding Of The Basic Principles Of How Molecular Motions Underlie Physical Properties. This Text Is Intended To Provide Grounding In Fundamental Aspects Of The Dynamic Behavior Of Rubbery Materials, Adopting A Molecular Perspective In Its Treatment To Emphasize How Microscopic Processes Are Connected To The Observed Macroscopic Behavior. The Latest Discoveries And Advances In The Science And Technology Of Rubbery Materials Are Described And Critically Analyzed.
How do the molecular motions of polymer chains dictate the macroscopic viscoelastic properties observed in rubbery materials? C. Michael Roland, a senior scientist with extensive experience in polymer physics, synthesizes current research to bridge the gap between microscopic molecular dynamics and observable physical performance. The text provides a rigorous framework for understanding rate-dependent behavior in soft matter, utilizing a molecular-level perspective to explain how structural characteristics influence mechanical responses.
What You Will Find
Scope Limits
Experts recognize this text as a specialized resource for researchers and graduate students focusing on the physics of soft matter. Readers frequently note the technical density of the prose, which assumes a strong foundation in polymer chemistry and thermodynamics.
Page Count:
320
Publication Date:
2011-01-01
Publisher:
OUP Oxford
ISBN-10:
0191621560
ISBN-13:
9780191621567
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