Rubber elasticity is an important sub-field of polymer science. This book is in many ways a sequel to the authors' previous, more introductory book, Rubberlike Elasticity: A Molecular Primer (Wiley-Interscience, 1988), and will in some respects replace the now classic book by L.R.G. Treloar, The Physics of Rubber Elasticity (Oxford, 1975).
The present book has much in common with its predecessor, in particular its strong emphasis on molecular concepts and theories.
Similarly, only equilibrium properties are covered in any detail.
Though this book treats much of the same subject matter, it is a more comprehensive, more up-to-date, and somewhat more sophisticated treatment.
1: Overview and Some Fundamental Information 2: Classical Theories of Rubber Elasticity 3: Intermolecular Effects I: The Constrained-Junction Model 4: Intermolecular Effects II: Constraints Along Network Chains 5: Relationships Between Stress and Strain 6: Swelling of Networks 7: Critical Phenomena and Phase Transitions in Gels 8: Calculations and Simulations 9: Thermoelasticity 10: Model Elastomers 11: Segmental Orientation 12: Networks with Semiflexible Chains and Networks Exhibiting Strain-Induced Crystallization 13: Networks Having Multimodal Chain-Length Distributions 14: Small-Angle Neutron Scattering 15: Bioelastomers 16: Multi-phase Systems Appendices
Reviews for Structures and Properties of Rubberlike Networks
Graduate students in physical chemistry and polymer science working on rubbers and elasticity will greatly benefit. Industrial research chemists interested in physical chemistry of polymers will find this volume useful. --Polymer News<br>