This book is a comprehensive assessment of the various theoretical and numerical methods currently in use to investigate microstructural transformations and mechanical properties of inhomogeneous systems, from the atomic scale to the macroscopic: kinetic mean-field theories, Monte Carlo and molecular dynamics simulations, Ginzburg-Landau and phase field methods as applied to plasticity and microstructure transformation, discrete and stochastic dislocation dynamics, and cluster dynamics. Extensive surveys of major physical processes include: solidification, microstructural evolution in single…mehr
This book is a comprehensive assessment of the various theoretical and numerical methods currently in use to investigate microstructural transformations and mechanical properties of inhomogeneous systems, from the atomic scale to the macroscopic: kinetic mean-field theories, Monte Carlo and molecular dynamics simulations, Ginzburg-Landau and phase field methods as applied to plasticity and microstructure transformation, discrete and stochastic dislocation dynamics, and cluster dynamics. Extensive surveys of major physical processes include: solidification, microstructural evolution in single and polycrystalline systems under internal and applied stress, high temperature plasticity, recrystallization, large plastic strain in multiphase systems, fatigue, fracture, diffusive transformations, and fine grained materials.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Produktdetails
Produktdetails
NATO Science Series II Mathematics, Physics and Chemistry 108
to modelling techniques in diffusive phase transformations.- Mean field theories and Ginzburg-Landau methods.- Mesoscale phase field modeling of engineering materials : microstructure and microelasticity.- Phase-field models of microstructural pattern formation.- The dynamics of interfaces in elastically stressed solids.- Cluster dynamics.- Sensitivity of texture development during grain growth to anisotropy of grain boundary properties.- Computer modelling of diffusion controlled transformations.- Solute drag : a review of the « Force » and « Dissipation » approaches to the effect of solute on grain and interphase boundary motion.- On the jerky nature of martensitic transformation.- The development of ultra high strength materials by microstructural refinement.- Microstructural aspects of cyclic defomation and fatigue of metals.- High temperature plasticity of metallic materials.- Transformation-induced plasticity in steels.- Grain size effect of plasticity modelled by molecular dynamics.- Mixed Atomistic/continuum methods : static and dynamic quasicontinuum methods.- Boundary problems in DD simulations.- Discrete dislocation plasticity.- Surface instabilities and misfit dislocations in annealed heteroepitaxial films.- On the role of the strain-rate sensitivity in collective dislocation effects.- Statistical properties of dislocation ensembles.- Collective behavior of defect ensembles and some nonlinear aspects of failure.- Field theory of crystal defect structure.- Monte-Carlo methods.- Kinetic Monte-Carlo simulations in crystalline alloys : principles and selected applications.- Role of atomic-scale simulation in the modeling of solidification microstructure.- Applications of Monte-Carlo simulations to the kinetics of phase transformations.- Experimentalinvestigations of microstructures.- Atomic scale tomography of microstructures and plastic properties.- Analysis of displacement and strain at the atomic level by high- resolution electron microscopy.- Dislocation organization under stress : TiAl.- List of Speakers.- Partners/Sponsors.
to modelling techniques in diffusive phase transformations.- Mean field theories and Ginzburg-Landau methods.- Mesoscale phase field modeling of engineering materials : microstructure and microelasticity.- Phase-field models of microstructural pattern formation.- The dynamics of interfaces in elastically stressed solids.- Cluster dynamics.- Sensitivity of texture development during grain growth to anisotropy of grain boundary properties.- Computer modelling of diffusion controlled transformations.- Solute drag : a review of the « Force » and « Dissipation » approaches to the effect of solute on grain and interphase boundary motion.- On the jerky nature of martensitic transformation.- The development of ultra high strength materials by microstructural refinement.- Microstructural aspects of cyclic defomation and fatigue of metals.- High temperature plasticity of metallic materials.- Transformation-induced plasticity in steels.- Grain size effect of plasticity modelled by molecular dynamics.- Mixed Atomistic/continuum methods : static and dynamic quasicontinuum methods.- Boundary problems in DD simulations.- Discrete dislocation plasticity.- Surface instabilities and misfit dislocations in annealed heteroepitaxial films.- On the role of the strain-rate sensitivity in collective dislocation effects.- Statistical properties of dislocation ensembles.- Collective behavior of defect ensembles and some nonlinear aspects of failure.- Field theory of crystal defect structure.- Monte-Carlo methods.- Kinetic Monte-Carlo simulations in crystalline alloys : principles and selected applications.- Role of atomic-scale simulation in the modeling of solidification microstructure.- Applications of Monte-Carlo simulations to the kinetics of phase transformations.- Experimentalinvestigations of microstructures.- Atomic scale tomography of microstructures and plastic properties.- Analysis of displacement and strain at the atomic level by high- resolution electron microscopy.- Dislocation organization under stress : TiAl.- List of Speakers.- Partners/Sponsors.
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