A molecular-dynamics method for the simulation of the intrinsic migration behavior of individual, flat grain boundaries is presented. A constant driving force for grain-boundary migration is generated by imposing an anisotropic elastic strain on a bicrystal such that the elastic-energy densities in its two halves are different. For the model case of the large-planar-unit-cell, high-angle (001) twist boundary in Cu the authors demonstrate that the drift velocity is proportional to the applied driving force, thus enabling determination of the boundary mobility. The activation energy for grain-boundary migration is found to be distinctly lower than that for grain-boundary self-diffusion. A decrease in the related activation energies with incre...
Grain boundaries (GBs) can play a role as the favored locations to annihilate point defects, such as...
Grain boundary migration plays an important role during the microstructural evolution of polycrystal...
Diffusion along twist grain boundaries was studied using the Embedded Atom Method (EAM). Six (100) t...
Control of microstructural evolution is the goal of much of materials processing. Properties of grai...
Abstract. We present two dimensional molecular dynamics simulations of grain boundary migration usin...
Abstract—Both experimental and atomistic simulation measurements of grain boundary mobility were mad...
An adapted simulation method is used to systematically study grain boundary motion at velocities and...
International audienceA complete micromechanics-based model is here proposed using the concepts of c...
We analyze recent results of atomistic computer simulations of grain boundary (GB) diffusion in meta...
Grain boundary (GB), a special solid-solid interface in materials, exists in all polycrystalline mat...
Molecular dynamics (MD) simulations have been applied to study mobilities of Σ3, Σ7 and &#...
The shear coupled motion of grain boundaries (GBs) is modelled by using two different atomistic simu...
Recent innovations in materials rely heavily on the addition and control of interfaces.This is true ...
Molecular Dynamics (MD) studies of grain boundary migration in polycrystalline materials provide fun...
We report molecular dynamics simulations and their analysis for a mixed tilt and twist grain boundar...
Grain boundaries (GBs) can play a role as the favored locations to annihilate point defects, such as...
Grain boundary migration plays an important role during the microstructural evolution of polycrystal...
Diffusion along twist grain boundaries was studied using the Embedded Atom Method (EAM). Six (100) t...
Control of microstructural evolution is the goal of much of materials processing. Properties of grai...
Abstract. We present two dimensional molecular dynamics simulations of grain boundary migration usin...
Abstract—Both experimental and atomistic simulation measurements of grain boundary mobility were mad...
An adapted simulation method is used to systematically study grain boundary motion at velocities and...
International audienceA complete micromechanics-based model is here proposed using the concepts of c...
We analyze recent results of atomistic computer simulations of grain boundary (GB) diffusion in meta...
Grain boundary (GB), a special solid-solid interface in materials, exists in all polycrystalline mat...
Molecular dynamics (MD) simulations have been applied to study mobilities of Σ3, Σ7 and &#...
The shear coupled motion of grain boundaries (GBs) is modelled by using two different atomistic simu...
Recent innovations in materials rely heavily on the addition and control of interfaces.This is true ...
Molecular Dynamics (MD) studies of grain boundary migration in polycrystalline materials provide fun...
We report molecular dynamics simulations and their analysis for a mixed tilt and twist grain boundar...
Grain boundaries (GBs) can play a role as the favored locations to annihilate point defects, such as...
Grain boundary migration plays an important role during the microstructural evolution of polycrystal...
Diffusion along twist grain boundaries was studied using the Embedded Atom Method (EAM). Six (100) t...