This book provides the principles of rubber science and technology: what rubber is, how it behaves, and how to design engineering components with rubber. It introduces the principles on which successful use of rubber depends and offers solutions to the questions engineers in rubber processing face every day.
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How is an elastomer chosen and a formulation developed?
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Why is rubber highly elastic and relatively strong?
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How is the stiffness and strength of a product estimated?
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How is high quality and durability guaranteed?
The authors describe current practices in rubber engineering. At the end of each chapter, there are sample questions and problems (with solutions) that gauge mastery of the material.
Preface to Third Edition
Authors
Chapter 1 : Introduction
Chapter 2 : Materials and Compounds
Chapter 3 : Elasticity
Chapter 4 : Dynamic Mechanical Properties
Chapter 5 : Strength
Chapter 6 : Mechanical Fatigue
Chapter 7 : Durability
Chapter 8 : Design of Components
Chapter 9 : Finite Element Analysis
Chapter 9B : Developments in Finite Element Analysis
Chapter 10 : Tests and Specifications
Appendix : Tables of Physical Constants
Index
