We analyze recent results of atomistic computer simulations of grain boundary (GB) diffusion in metals. At temperatures well below the bulk melting point Tm GB diffusion occurs by random walk of individual vacancies and self-interstitials. Both defects are equal participants in the diffusion process and can move by a large variety of diffusion mechanisms, many of which are collective transitions. GB diffusion coefficients can be computed by kinetic Monte Carlo simulations. At high temperatures, the presence of large concentrations of point defects is likely to alter the diffusion mechanisms. Molecular dynamics simulations of GB structure and diffusion in copper reveal a continuous GB premelting in close vicinity of Tm. However, diffusion in...
Suggested methods describe the process of self-diffusion along grain boundaries and triple junctions...
Microstructure of polycrystalline materials can be described as grain boundary (GB) networks; hence,...
Microstructure of polycrystalline materials can be described as grain boundary (GB) networks; hence,...
Recent experimental measurements of Ag impurity diffusion in the Σ5 (310) grain boundary (GB) in Cu ...
Diffusion along twist grain boundaries was studied using the Embedded Atom Method (EAM). Six (100) t...
A molecular-dynamics method for the simulation of the intrinsic migration behavior of individual, fl...
The more useful experimental techniques for determining grain-boundary diffusion are briefly describ...
Control of microstructural evolution is the goal of much of materials processing. Properties of grai...
International audienceGrain boundary diffusion of iron in high purity polycrystalline copper is meas...
Molecular dynamics (MD) simulations are applied to study solute drag by curvature-driven grain bound...
The analysis of grain boundary (GB) diffusion in metallic systems based on Cu, Ni, Ag and Al was mad...
Abstract Diffusion is one of the most important phenomena studied in science ranging from physics to...
An adapted simulation method is used to systematically study grain boundary motion at velocities and...
The atomistic structures of a number of single vacancies and interstitials at a number of sites in t...
It is generally well recognized that in the course of a grain boundary (GB) diffusion experiment the...
Suggested methods describe the process of self-diffusion along grain boundaries and triple junctions...
Microstructure of polycrystalline materials can be described as grain boundary (GB) networks; hence,...
Microstructure of polycrystalline materials can be described as grain boundary (GB) networks; hence,...
Recent experimental measurements of Ag impurity diffusion in the Σ5 (310) grain boundary (GB) in Cu ...
Diffusion along twist grain boundaries was studied using the Embedded Atom Method (EAM). Six (100) t...
A molecular-dynamics method for the simulation of the intrinsic migration behavior of individual, fl...
The more useful experimental techniques for determining grain-boundary diffusion are briefly describ...
Control of microstructural evolution is the goal of much of materials processing. Properties of grai...
International audienceGrain boundary diffusion of iron in high purity polycrystalline copper is meas...
Molecular dynamics (MD) simulations are applied to study solute drag by curvature-driven grain bound...
The analysis of grain boundary (GB) diffusion in metallic systems based on Cu, Ni, Ag and Al was mad...
Abstract Diffusion is one of the most important phenomena studied in science ranging from physics to...
An adapted simulation method is used to systematically study grain boundary motion at velocities and...
The atomistic structures of a number of single vacancies and interstitials at a number of sites in t...
It is generally well recognized that in the course of a grain boundary (GB) diffusion experiment the...
Suggested methods describe the process of self-diffusion along grain boundaries and triple junctions...
Microstructure of polycrystalline materials can be described as grain boundary (GB) networks; hence,...
Microstructure of polycrystalline materials can be described as grain boundary (GB) networks; hence,...