Part I. Thinking About the Material World: 1. Idealizing material response; 2. Continuum mechanics revisited; 3. Quantum and statistical mechanics revisited; Part II. Energetics of Crystalline Solids: 4. Energetic description of cohesion in solids; 5. Thermal and elastic properties of crystals; 6. Structural energies and phase diagrams; Part III. Geometric Structures in Solids: Defects and Microstructure: 7. Point defects in solids; 8. Line defects in solids; 9. Wall defects in solids; 10. Microstructure and its evolution; Part IV. Facing the Multiscale Challenge of Real Material Behavior: 11. Points, lines and walls: defect interactions and material response; 12. Bridging scales: effective theory construction; 13. Universality and specificity in materials.
Examines the advances made in the field in recent years and looks at the various methods now used; ideal for graduate students and researchers.
'It covers an extremely wide range of topics including good case studies of new systems such as nanotubes. It succeeds in convening modelling ideas from both a physics and materials science point of view. ... This book's distinct feature, which makes it attractive as a general reference book, is the inclusion of a lot of the author's personal opinions, and makes it stand out from most classroom or course textbooks. To support this, the style of writing is informal, easy to read, and sometimes fun.' Dr Wei Sha, Materials World '... a timely and relevant postgraduate level text covering an unusual and exciting new topic ...'. Joan Halfpenny, Chemistry in Britain 'I would recommend it to anyone wishing to get both a broad overview of the intersection of theoretical condensed matter physics with modern materials science, and some good pointers toward future research directions.' Nigel Goldenfeld, Physics Today
|
Ask a Question About this Product More... |
|
