Computational Materials Science: The Simulation of Materials, Microstructures and PropertiesWiley, 27 ott 1998 - 400 pagine Modeling and simulation play an ever increasing role in the development and optimization of materials. Computational Materials Science presents the most important approaches in this new interdisciplinary field of materials science and engineering. The reader will learn to assess which numerical method is appropriate for performing simulations at the various microstructural levels and how they can be coupled. This book addresses graduate students and professionals in materials science and engineering as well as materials-oriented physicists and mechanical engineers. |
Dall'interno del libro
Pagina 14
... modeling , by Koonin ( 1986 ) , and by Bellomo and Preziosi ( 1995 ) , who gave a concise mathematical definition of modeling . 2.3 The Generalized State Variable Concept 2.3.1 Concepts for Models beyond the Atomic Scale The rather ...
... modeling , by Koonin ( 1986 ) , and by Bellomo and Preziosi ( 1995 ) , who gave a concise mathematical definition of modeling . 2.3 The Generalized State Variable Concept 2.3.1 Concepts for Models beyond the Atomic Scale The rather ...
Pagina 311
The Simulation of Materials, Microstructures and Properties Dierk Raabe ... Science 1986 ASM International J. E. Mark , M. E. Glicksman , S. P. Marsh ... Mathematical Modeling and Scientific Computation J. von Neumann Collected ...
The Simulation of Materials, Microstructures and Properties Dierk Raabe ... Science 1986 ASM International J. E. Mark , M. E. Glicksman , S. P. Marsh ... Mathematical Modeling and Scientific Computation J. von Neumann Collected ...
Pagina 329
... Modeling Mathematical Methods and Scientific Computation . CRC Press , 2000 Corporate Blvd. , N.W. , Boca Raton , Florida 33431 . Ben - Jakob , E. , N. Goldenfeld , J. S. Langer , and G. Schon ( 1985 ) . Phys . Rev. Lett . 51 , 1930 ...
... Modeling Mathematical Methods and Scientific Computation . CRC Press , 2000 Corporate Blvd. , N.W. , Boca Raton , Florida 33431 . Ben - Jakob , E. , N. Goldenfeld , J. S. Langer , and G. Schon ( 1985 ) . Phys . Rev. Lett . 51 , 1930 ...
Sommario
Material Constants | 1 |
Molecular Dynamics | 7 |
GinzburgLandauType Phase Field Kinetic Models | 10 |
Copyright | |
17 sezioni non visualizzate
Parole e frasi comuni
according allows amounts applications approach approximate assumed atoms average boundary calculated cell cellular Chapter classical components concentration concept considered constant coordinates crystal defects defined density depends derivatives described differential equations diffusion discrete dislocation displacement distribution elastic electron energy ensemble equilibrium et al evolution examples expression field Figure finite difference finite element force formulation function given grain grain boundary growth independent instance integral interaction interface introduced kinetic lattice macroscopic materials science matrix means mechanics Metall method microstructure models molecular dynamics Monte Carlo motion obtained orientation original parameters particle phase physical plasticity position possible potential predictions problem properties Raabe random recrystallization referred represents rules sampling scale segments simple simulations solution solving space spatial statistical step strain stress structure techniques tensor theory transformation typically usually values variables various vector volume written