The microstructural evolution of heavily deformed polycrystalline Cu is simulated by coupling a constitutive model for polycrystal plasticity with the Monte Carlo Potts model for grain growth. The effects of deformation on boundary topology and grain growth kinetics are presented. Heavy deformation leads to dramatic strain-induced boundary migration and subsequent grain fragmentation. Grain growth is accelerated in heavily deformed microstructures. The implications of these results for the thermomechanical fatigue failure of eutectic solder joints are discussed
This paper presents research on the development of a simulation method for the study of the mechanis...
International audienceFormulating appropriate simulation models that capture the microstructure evol...
In this research parallel molecular dynamics (MD) simulations have been performed to study the defor...
In this study, the change in microstructure during large deformation is simulated using mo...
Mechanical behavior and microstructure evolution of polycrystalline copper with nano-twins were inve...
A novel simulation technique for predicting the microstructure and texture evolution during thermome...
We investigate the benefits and limitations of mesoscale models for discontinuous dynamic recrystall...
The purpose of microstructural control is to optimize materials properties. To that end, they have d...
A systematic investigation is presented into the microstructural and micromechanical influences on d...
International audienceA two-dimensional numerical model of microstructural effects is presented, wit...
Deformation of a grain in polycrystalline metals is restricted or forced by deformation of neighbor ...
Spalling is a typical tensile failure that results from the coupling evolution of microstructure and...
A copper sample made of a single layer of grains is plastically deformed by uniaxial tension at room...
International audienceThe effect of grain size on the tensile plastic deformation of ultrafine-grain...
The deformation of polycrystalline aluminum is simulated at the microstructural length scale using a...
This paper presents research on the development of a simulation method for the study of the mechanis...
International audienceFormulating appropriate simulation models that capture the microstructure evol...
In this research parallel molecular dynamics (MD) simulations have been performed to study the defor...
In this study, the change in microstructure during large deformation is simulated using mo...
Mechanical behavior and microstructure evolution of polycrystalline copper with nano-twins were inve...
A novel simulation technique for predicting the microstructure and texture evolution during thermome...
We investigate the benefits and limitations of mesoscale models for discontinuous dynamic recrystall...
The purpose of microstructural control is to optimize materials properties. To that end, they have d...
A systematic investigation is presented into the microstructural and micromechanical influences on d...
International audienceA two-dimensional numerical model of microstructural effects is presented, wit...
Deformation of a grain in polycrystalline metals is restricted or forced by deformation of neighbor ...
Spalling is a typical tensile failure that results from the coupling evolution of microstructure and...
A copper sample made of a single layer of grains is plastically deformed by uniaxial tension at room...
International audienceThe effect of grain size on the tensile plastic deformation of ultrafine-grain...
The deformation of polycrystalline aluminum is simulated at the microstructural length scale using a...
This paper presents research on the development of a simulation method for the study of the mechanis...
International audienceFormulating appropriate simulation models that capture the microstructure evol...
In this research parallel molecular dynamics (MD) simulations have been performed to study the defor...