In this paper, the authors review recent progress that has been made in understanding various aspects of grain boundary diffusion at the phenomenological level. We show how the mapping of phenomenological grain boundary diffusion problems onto a lattice readily permits lattice-based random walk theory to be used to address the problem, invariably by Monte Carlo computer simulation methods. Recent advances in calculating concentration profiles and effective diffusion coefficients are described in detail
We consider the simulation of deformation of polycrystalline materials by grain-boundary diffusion c...
Des expériences récentes sur des solutions solides binaires ou ternaires nous permettent de discuter...
We investigate the diffusion of a grain boundary in a crystalline material. We consider in particula...
The location of the transition points for the three main Harrison’s kinetics regimes (Type-A, B and ...
Knowledge of the limits of the principal Harrison kinetics regimes (Types A, B and C) for grain boun...
It is generally well recognized that in the course of a grain boundary (GB) diffusion experiment the...
Recently, the transition point between the Harrison Type-A to Type-B kinetics regimes as well as the...
The evolution of self-diffusion concentration depth profiles into a bulk polycrystalline material fr...
Recently, the transition point between the Harrison Type-A and Type-B kinetics regimes as well as th...
We model the grain boundary tracer diffusion problem by constructing a 3D structure consisting of cu...
The more useful experimental techniques for determining grain-boundary diffusion are briefly describ...
In this overview, we introduce the recently developed Lattice Monte Carlo method for addressing and ...
Abstract--The ffect of grain boundary regions on the total amount diffused during an exchange experi...
We analyze recent results of atomistic computer simulations of grain boundary (GB) diffusion in meta...
Diffusion in crystalline solids includes processes such as lattice diffusion, surface diffusion, gra...
We consider the simulation of deformation of polycrystalline materials by grain-boundary diffusion c...
Des expériences récentes sur des solutions solides binaires ou ternaires nous permettent de discuter...
We investigate the diffusion of a grain boundary in a crystalline material. We consider in particula...
The location of the transition points for the three main Harrison’s kinetics regimes (Type-A, B and ...
Knowledge of the limits of the principal Harrison kinetics regimes (Types A, B and C) for grain boun...
It is generally well recognized that in the course of a grain boundary (GB) diffusion experiment the...
Recently, the transition point between the Harrison Type-A to Type-B kinetics regimes as well as the...
The evolution of self-diffusion concentration depth profiles into a bulk polycrystalline material fr...
Recently, the transition point between the Harrison Type-A and Type-B kinetics regimes as well as th...
We model the grain boundary tracer diffusion problem by constructing a 3D structure consisting of cu...
The more useful experimental techniques for determining grain-boundary diffusion are briefly describ...
In this overview, we introduce the recently developed Lattice Monte Carlo method for addressing and ...
Abstract--The ffect of grain boundary regions on the total amount diffused during an exchange experi...
We analyze recent results of atomistic computer simulations of grain boundary (GB) diffusion in meta...
Diffusion in crystalline solids includes processes such as lattice diffusion, surface diffusion, gra...
We consider the simulation of deformation of polycrystalline materials by grain-boundary diffusion c...
Des expériences récentes sur des solutions solides binaires ou ternaires nous permettent de discuter...
We investigate the diffusion of a grain boundary in a crystalline material. We consider in particula...