Science and Technology of RubberJames E. Mark, Burak Erman, Frederick R. Eirich Science and Technology of Rubber, Second Edition provides a general survey of elastomers and an examination of rubberlike elasticity, with an emphasis on a unified treatment ranging from physical theory to final applications. Researchers in polymer science and engineering fields will find coverage of recent advances, unsolved problems and projections, and processing.
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Contents
1 | |
23 | |
Chapter 3 Structure Characterization in the Science and Technology of Elastomers | 95 |
Chapter 4 The Molecular Basis of Rubberlike Elasticity | 189 |
Chapter 5 Dynamic Mechanical Properties | 211 |
Chapter 6 Rheological Behavior and Processing of Unvulcanized Rubber | 257 |
Chapter 7 Vulcanization | 339 |
Chapter 8 Reinforcement of Elastomers by Particulate Fillers | 387 |
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Common terms and phrases
accelerator Appl behavior blends block copolymers bond butadiene butyl rubber carbon black chemical components composition compounds concentration copolymerization cord crack crosslinking crystalline decrease deformation density dependence dynamic vulcanization effect elastic elastomeric electron emulsion polymerization energy EPDM equation extruder FIGURE filler fraction fracture free radical frequency function graft graft copolymers hard segment hydrogen increase initiator internal mixer isoprene J. L. White linear Macromolecules material measured mechanical mixing modulus molecules monomer morphology natural rubber oxide particles peroxide phase Phys plastic polybutadiene Polymer Science polymerization polystyrene polyurethanes properties ratio reaction reinforcing resistance result Rubber Chem sample scattering shear shown in Fig soft segment solution solvent strain stress structure studies styrene sulfur surface tear techniques Technol temperature tensile strength thermoplastic elastomers tion tire TPEs transition tread triblock U.S. Patent viscoelastic viscosity vulcanizate vulcanization York