Theory of Solidification
Theory of Solidification
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£134.00
GBPThe processes of freezing and melting were present at the beginnings of the Earth and continue to dominate the natural and industrial worlds. The solidification of a liquid or the melting of a solid involves a complex interplay of many physical effects. This 2001 book presents in a systematic way the field of continuum solidification theory based on instability phenomena. An understanding of the physics is developed by using examples of increasing complexity with the object of creating a deep physical insight applicable to more complex problems. Applied mathematicians, engineers, physicists, and materials scientists will all find this volume of interest.
- Authoritative account of solidification processes
- Includes many references
- Applicable to a wide audience
Reviews & endorsements
'The reviewer strongly recommends this book for those who want to start their research … also be recommended as a text-book at post-graduate level … hence the real importance of this book.' Zentralblatt für Mathematik
'… an authoritative handbook for the dedicated specialist, and as such a valuable addition to any library of materials science and engineering or applied mathematics.' D. Weaire, Contemporary Physics
'This book gives an excellent overview of the main areas of solidification theory, with emphases that reflect the interests and background of the author. For a reader with an applied math background and a strong interest in weakly nonlinear techniques, it is a good way into the field without getting lost in materials science arcana.' SIAM Review
'The monograph is highly recommended to all applied mathematicians, engineers, and physicists working in the field of phase transformations.' ZAMM
Product details
January 2005Adobe eBook Reader
9780511036965
0 pages
0kg
274 b/w illus. 4 tables
This ISBN is for an eBook version which is distributed on our behalf by a third party.
Table of Contents
- 1. Introduction
- 2. Pure substances
- 3. Binary substances
- 4. Nonlinear theory for directional solidification
- 5. Anisotrophy
- 6. Disequilibrium
- 7. Dendrites
- 8. Eutectics
- 9. Microscale fluid flow
- 10. Mesoscale fluid flow
- 11. Phase-field models.
