International audienceIn this paper, the results of a 2D full field grain growth model are compared with several 2D mean field grain growth models (Burke and Turbull model and Hillert/Abbruzzese model), using simplified assumptions of isotropic grain boundary energy and mobility, and under the absence of precipitates. The full field model is based on a finite element formulation combined with a level set framework, used to describe the granular structure, and model grain boundary motion through a diffusion formulation. The initial digital microstructures are created using a coupled "Voronoï-Laguerre/dense sphere packing" algorithm, which allows to obey different types of initial grain size distributions, in the considered 2D context. The re...
A highly efficient simulation model for 2D and 3D grain growth and recrystallization was developed b...
The microstructure of materials often consists of multiple grains with different crystallographic or...
The evolution of fibre textured structures is simulated in two dimensions using a generalised phase ...
International audienceIn this paper, the results of a 2D full field grain growth model are compared ...
International audienceIn the present study, mean field models of grain growth (Hillert and Burke–Tur...
International audienceIn a previous article (Fausty et al., 2018) a new level-set finite element for...
International audienceTwo finite element level-set (FE-LS) formulations are compared for the modelin...
International audienceIn this study, four different finite element level-set (FE-LS) formulations ar...
International audienceRecently, an original full field model working at the mesoscopic scale using t...
International audienceIn this study, we investigate grain growth within pure olivine systems through...
Recently, an original full field model working at the mesoscopic scale using the level set (LS) meth...
International audienceDifferent full field models exist for the simulation of anisotropic grain grow...
International audienceGrain growth in metallic materials is often detrimental to the desired propert...
Mean-field approaches are commonly used in the simulation of grain growth in metals as they are easi...
International audienceA highly efficient simulation model for 2D and 3D grain growth was developed b...
A highly efficient simulation model for 2D and 3D grain growth and recrystallization was developed b...
The microstructure of materials often consists of multiple grains with different crystallographic or...
The evolution of fibre textured structures is simulated in two dimensions using a generalised phase ...
International audienceIn this paper, the results of a 2D full field grain growth model are compared ...
International audienceIn the present study, mean field models of grain growth (Hillert and Burke–Tur...
International audienceIn a previous article (Fausty et al., 2018) a new level-set finite element for...
International audienceTwo finite element level-set (FE-LS) formulations are compared for the modelin...
International audienceIn this study, four different finite element level-set (FE-LS) formulations ar...
International audienceRecently, an original full field model working at the mesoscopic scale using t...
International audienceIn this study, we investigate grain growth within pure olivine systems through...
Recently, an original full field model working at the mesoscopic scale using the level set (LS) meth...
International audienceDifferent full field models exist for the simulation of anisotropic grain grow...
International audienceGrain growth in metallic materials is often detrimental to the desired propert...
Mean-field approaches are commonly used in the simulation of grain growth in metals as they are easi...
International audienceA highly efficient simulation model for 2D and 3D grain growth was developed b...
A highly efficient simulation model for 2D and 3D grain growth and recrystallization was developed b...
The microstructure of materials often consists of multiple grains with different crystallographic or...
The evolution of fibre textured structures is simulated in two dimensions using a generalised phase ...