Add to ORKGThe topological transitions that occur to the grain boundary network during grain growth in a material with uniform grain boundary energies are believed to be known. The same is not true for more realistic materials, since more general grain boundary energies in principle allow many more viable grain boundary configurations. A simulation of grain growth in such a material therefore requires a procedure to enumerate all possible topological transitions and select the most energetically favorable one. Such a procedure is developed and implemented here for a microstructure represented by a volumetric finite element mesh. As a specific example, all possible transitions for a typical configuration with five grains around a junction point are enu...
International audienceThe microstructure of granular material have a large influence on the mechanic...
International audienceIn a previous article (Fausty et al., 2018) a new level-set finite element for...
Abstract: Cellular networks are ubiquitous in nature. They exhibit behavior on many different length...
The topological transitions that occur to the grain boundary network during grain growth in a materi...
The topological transitions of the grain boundary network during grain growth under uniform grain bo...
Abstract. Polycrystalline materials undergoing coarsening can be represented as evolving networks of...
A level set formulation is proposed that can accurately trace the evolution of grain boundary networ...
The microstructure of materials, i.e. the size, shape and arrangement of grains, determines essentia...
The kinetics of a triple junction of grain boundaries with distinct specific energies and mobilities...
International audienceGrain growth in metallic materials is often detrimental to the desired propert...
A growth equation for individual grains is suggested by considering the interactions of the nearest-...
The grain boundary curvature driving force for grain growth arises from the angular conditions impos...
Large-scale phase-field simulations were performed of the evolution of grain structures with nonunif...
International audienceGrain growth is a ubiquitous thermally activated mechanism by which the micros...
A highly efficient simulation model for 2D and 3D grain growth and recrystallization was developed b...
International audienceThe microstructure of granular material have a large influence on the mechanic...
International audienceIn a previous article (Fausty et al., 2018) a new level-set finite element for...
Abstract: Cellular networks are ubiquitous in nature. They exhibit behavior on many different length...
The topological transitions that occur to the grain boundary network during grain growth in a materi...
The topological transitions of the grain boundary network during grain growth under uniform grain bo...
Abstract. Polycrystalline materials undergoing coarsening can be represented as evolving networks of...
A level set formulation is proposed that can accurately trace the evolution of grain boundary networ...
The microstructure of materials, i.e. the size, shape and arrangement of grains, determines essentia...
The kinetics of a triple junction of grain boundaries with distinct specific energies and mobilities...
International audienceGrain growth in metallic materials is often detrimental to the desired propert...
A growth equation for individual grains is suggested by considering the interactions of the nearest-...
The grain boundary curvature driving force for grain growth arises from the angular conditions impos...
Large-scale phase-field simulations were performed of the evolution of grain structures with nonunif...
International audienceGrain growth is a ubiquitous thermally activated mechanism by which the micros...
A highly efficient simulation model for 2D and 3D grain growth and recrystallization was developed b...
International audienceThe microstructure of granular material have a large influence on the mechanic...
International audienceIn a previous article (Fausty et al., 2018) a new level-set finite element for...
Abstract: Cellular networks are ubiquitous in nature. They exhibit behavior on many different length...