Continuum Scale Simulation of Engineering Materials has everything you need to know about materials research -- from the fundamentals to recent applications.

Continuum Scale Simulation of Engineering Materialsprovides you with information needed to judge which simulation method to use for which kind of modeling/simulation problem.

Contents:

1. Computer simulation of diffusion controlled phase transformations
2. Introduction to the phase-field method of microstructure evolution
3. Cellular, lattice gas,and Boltzmann automata
4. The Monte Carlo method
5. Crystal plasticity
6. Yield surface plasticity and anisotropy
7. Artificial neural networks
8. Multiscale discrete dislocation dynamics plasticity
9. Physically based models for industrial materials : what for?
10. Modeling of dendritic grain formation during solidification at the level of macro- and microstructures
11. Phase-field method applied to strain-dominated microstructure evolution during solid-state phase transformations
12. Irregular cellular automata modeling of grain growth
13. Topological relationships in 2D trivalent mosaics and their application to normal grain growth
14. Motion of multiple interfaces : grain growth and coarsening
15. Deformation and recrystallization of particle-containing aluminum alloys
16. Mesoscale simulation of grain growth
17. Dislocation dynamics simulations of particle strengthening
18. Discrete dislocation dynamics simulation of thin film plasticity
19. Discrete dislocation dynamics simulation of crack-tip plasticity
20. Coarse graining of dislocation structure and dynamics
21. Statistical dislocation modeling
22. Taylor-type homogenization method for texture and anisotropy
23. Self consistent homogenization methods for texture and anisotropy
24. Phase-field extension of crystal plasticity with application to hardening modeling
25. Generalized continuum modeling of single and polycrystal plasticity
26. Micro-mechanical finite element models for crystal plasticity
27. A crystal plasticity framework for deformation twinning
28. The texture component crystal plasticity finite element method
29. Microstructural modeling of multifunctional material properties : the OOF project
30. Micromechanical simulation of composites
31. Creep simulation
32. Computational fracture mechanics
33. Rheology of concentrated suspensions : a lattice model
34. Solidification processes : from dendrites to design
35. Simulation in powder technology
36. Integration of physically based materials
37. Integrated through-process modelling, by the example of Al-rolling
38. Property control in production of aluminum sheet by use of simulation
39. Forging
40. Numerical simulation of solidification structures during fusion welding
41. Forming analysis and design for hydroforming
42. Sheet springback
43. The ESI-Wilkins-Kamoulakos (EWK) rupture model
44. Damage percolation modeling in aluminum alloy sheet
45. Structure damage simulation
46. Microstructure modeling using artificial neural networks

click here to see books • videos • cd-roms of related interest

ORDER NOW Continuum Scale Simulation of Engineering Materials Fundamentals—Microstructures—Process Applications edited by Dierk Raabe 855 pages • $419.00 + shipping Texas residents please add 6.75 % sales tax