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Polymer physics / Michael Rubinstein and Ralph H. Colby.



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Rubinstein, Michael, 1956 December 20-
Publication date:
Oxford ; New York : Oxford University Press, 2003.
  • Book
  • xi, 440 p. : ill. ; 26 cm.
Includes bibliographical references and index.
  • 0.1 Preface-- 1. Introduction-- I SINGLE CHAIN CONFORMATIONS-- 2. Ideal Chains-- 3. Real Chains-- II THERMODYNAMICS OF BLENDS AND SOLUTIONS-- 4. Thermodynamics of Mixing-- 5. Polymer Solutions-- III NETWORKS AND GELATION-- 6. Random Branching and Gelation-- 7. Networks and Gels-- IV DYNAMICS-- 8. Unentangled Polymer Dynamics-- 9. Entangled Polymers Dynamics.
  • (source: Nielsen Book Data)
Publisher's Summary:
This is a polymer physics textbook for upper level undergraduates and first year graduate students. Any student with a working knowledge of calculus, physics and chemistry should be able to read this book. The essential tools of the polymer physical chemist or engineer are derived in this book without skipping any steps. The book is a self-contained treatise that could also serve as a useful reference for scientists and engineers working with polymers. While no prior knowledge of polymers is assumed, the book goes far beyond introductory polymer texts in the scope of what is covered. The fundamental concepts required to fully understand polymer melts, solutions and gels in terms of both static structure and dynamics are explained in detail. Problems at the end of each Chapter provide the reader with the opportunity to apply what has been learned to practice. The book is divided into four parts. After an introduction in Chapter 1, where the necessary concepts from a first course on polymers are summarized, the conformations of single polymer chains are treated in Part 1. Part 2 deals with the thermodynamics of polymer solutions and melts, including the conformations of chains in those states. Part 3 applies the concepts of Part 2 to the formation and properties of polymer networks. Finally, Part 4 explains the essential aspects of how polymers move in both melt and solution states. In all cases, attention is restricted to concepts that are firmly entrenched in the field.
(source: Nielsen Book Data)
Colby, Ralph H.

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