First Principles Modelling of Shape Memory Alloys: Molecular Dynamics Simulations (Springer Series in Materials Science, 163) Hardback - 2012 - 2012th Edition
by Kastner, Oliver
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- Hardback
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Details
- Title First Principles Modelling of Shape Memory Alloys: Molecular Dynamics Simulations (Springer Series in Materials Science, 163)
- Author Kastner, Oliver
- Binding Hardback
- Edition number 2012th
- Edition 2012
- Condition New
- Pages 176
- Volumes 1
- Language ENG
- Publisher Springer
- Publication date 2012-08-01
- Illustrated Yes
- Features Illustrated
- Bookseller's Inventory # DADAX3642286186
- ISBN 9783642286186 / 3642286186
- Weight 0.9 lbs (0.41 kg)
- Dimensions 9.2 x 6 x 0.6 in (23.37 x 15.24 x 1.52 cm)
- Size 6.00x0.60x9.20
-
Themes
- Aspects (Academic): Science/Technology Aspects
- Dewey Decimal Code 620.163
- Quantity available 6
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From the rear cover
Materials sciences relate the macroscopic properties of materials to their microscopic structure and postulate the need for holistic multiscale research. The investigation of shape memory alloys is a prime example in this regard. This particular class of materials exhibits strong coupling of temperature, strain and stress, determined by solid state phase transformations of their metallic lattices.
The present book presents a collection of simulation studies of this behaviour. Employing conceptually simple but comprehensive models, the fundamental material properties of shape memory alloys are qualitatively explained from first principles. Using contemporary methods of molecular dynamics simulation experiments, it is shown how microscale dynamics may produce characteristic macroscopic material properties.
The work is rooted in the materials sciences of shape memory alloys and covers thermodynamical, micro-mechanical and crystallographical aspects. It addresses scientists in these research fields and their students.
The present book presents a collection of simulation studies of this behaviour. Employing conceptually simple but comprehensive models, the fundamental material properties of shape memory alloys are qualitatively explained from first principles. Using contemporary methods of molecular dynamics simulation experiments, it is shown how microscale dynamics may produce characteristic macroscopic material properties.
The work is rooted in the materials sciences of shape memory alloys and covers thermodynamical, micro-mechanical and crystallographical aspects. It addresses scientists in these research fields and their students.