Crystal plasticity models for single crystals at large deformation are shown. An extension to the computation of polycrystals is also proposed. The scale transition rule is numerically identified on polycrystal computations, and is valid for any type of loading. All these models are implemented in a finite element code, which has a sequential and a parallel version. Parallel processing makes CPU time reasonable, even for 3D meshes involving a large number of internal variables (more than 1000) at each Gauss point. Together with a presentation of the numerical tools, the paper shows several applications, a study of the crack tip strain fields in single crystals, of zinc coating on a steel substrate, specimen computation involving a large num...
Using a massively parallel finite-element code, we perform an ensemble of 3D Direct Numerical Simula...
The physical basis of computationally tractable models of crystalline plasticity is reviewed. A stat...
The microstructure of polycrystalline materials crucially determines their mechanical performance in...
Crystal plasticity models for single crystals at large deformation are shown. An extension to the co...
Crystal plasticity models for single crystals at large deformation are shown. An extension to the co...
The macroscale mechanical behaviour of crystalline materials, such as polycrystalline metals and sin...
The overall and local tensile responses of an α iron multicrystalline sample are investigated in ord...
International audienceLarge scale finite element simulations of the elastoviscoplastic behaviour of ...
In this Special Issue, we have gathered work on simulations of polycrystalline metals and alloys at ...
One of the common tools for studying the deformation behavior of the microstructure in polycrystalli...
The main objective of this PhD thesis is to develop a numerical tool capable of predicting the ducti...
This thesis treats the modeling of grain size dependence inmicrostructure models of metals. It is sh...
A multiscale computational model is developed for determining the elasto-plastic behavior of polycry...
We present a method to map and track textures in crystal plasticity finite element simulations using...
CD-ROM, 0860International audienceFinite Element Crystal Plasticity is now a well developped field o...
Using a massively parallel finite-element code, we perform an ensemble of 3D Direct Numerical Simula...
The physical basis of computationally tractable models of crystalline plasticity is reviewed. A stat...
The microstructure of polycrystalline materials crucially determines their mechanical performance in...
Crystal plasticity models for single crystals at large deformation are shown. An extension to the co...
Crystal plasticity models for single crystals at large deformation are shown. An extension to the co...
The macroscale mechanical behaviour of crystalline materials, such as polycrystalline metals and sin...
The overall and local tensile responses of an α iron multicrystalline sample are investigated in ord...
International audienceLarge scale finite element simulations of the elastoviscoplastic behaviour of ...
In this Special Issue, we have gathered work on simulations of polycrystalline metals and alloys at ...
One of the common tools for studying the deformation behavior of the microstructure in polycrystalli...
The main objective of this PhD thesis is to develop a numerical tool capable of predicting the ducti...
This thesis treats the modeling of grain size dependence inmicrostructure models of metals. It is sh...
A multiscale computational model is developed for determining the elasto-plastic behavior of polycry...
We present a method to map and track textures in crystal plasticity finite element simulations using...
CD-ROM, 0860International audienceFinite Element Crystal Plasticity is now a well developped field o...
Using a massively parallel finite-element code, we perform an ensemble of 3D Direct Numerical Simula...
The physical basis of computationally tractable models of crystalline plasticity is reviewed. A stat...
The microstructure of polycrystalline materials crucially determines their mechanical performance in...