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Rheophysics
The Deformation and Flow of Matter
Addresses problems involving the flow of matter for researchers and graduate students in physics, engineering, and materials science.
Patrick Oswald (Author)
9781107439528, Cambridge University Press
Paperback / softback, published 11 September 2014
642 pages
24.6 x 17 x 3.5 cm, 1.2 kg
"A remarkable strength of this book is how it connects theoretical concepts to the read world." Pure and Applied Geophysics
Why is it necessary to strike while the iron is hot? What makes a good liquid crystal display? Why is rubber so elastic? These questions can be answered through rheophysics, using the mechanics of continuous media at the macroscopic scale, and statistical mechanics and the physics of defects at the microscopic level. This book addresses problems involving the flow of matter, covering the main aspects of the mechanical response of fluids and solids to applied stress or strain. It includes the hydrodynamics of ordinary liquids, the elasticity and plasticity of solids, and the rheology of complex fluids such as suspensions, polymers and liquid crystals. Dislocations are described thoroughly, and special attention is given to instabilities. Concepts and physical properties are illustrated by numerous experiments, historical anecdotes, and applications to aeronautics, metallurgy, and geophysics, making this a valuable reference for researchers and graduate students in physics, engineering, and materials science.
Preface
Foreword
Acknowledgements
1. General points on materials and their rheophysical behaviour
2. Overview of the mechanics of continuous media
3. Hydrodynamics of simple liquids
4. Solid elasticity
5. Defects, plasticity and fracture solids
6. Rheology of isotropic viscoelastic materials (1)
7. Rheology of isotropic viscoelastic materials (2)
8. The rheology of liquid crystals
References
Notations
Index.
Subject Areas: Mechanics of solids [TGMD], Materials science [TGM], Geology & the lithosphere [RBG], Geophysics [PHVG], Condensed matter physics [liquid state & solid state physics PHFC]
