International audienceA methodology for modeling realistic microstructures of metallic polycrystalline material is presented. This approach is applied to the prediction of cyclic behavior of austenitic steel 304L in order to study the role of microstructural effects on fatigue crack initiation. The microscope observations show crack initiation and microcrack propagation are dependent on crystallographic orientations, indicating the need for such modeling approach. A representative volume of the material corresponding to a realistic microstructure, containing about 200 grains, has been numerically modeled with the crystal plasticity approach. This model takes account of dislocation densities on the 12 slip systems, isotropic and kinematic ha...
International audience3D discrete dislocation dynamic (DDD) simulations are performed to simulate st...
International audienceA non-local polycrystal approach, taking into account strain gradients, is pro...
Abstract Multiscale microstructural and micromechanical modeling has arisen as a candidate to impro...
International audienceA methodology for modeling realistic microstructures of metallic polycrystalli...
AbstractA methodology for modeling realistic microstructures of metallic polycrystalline material is...
AbstractNumerous studies have pointed out the major role of microstructural phenomena in the nucleat...
International audienceThe present paper is devoted to the study of the parameters responsible for th...
Low cycle fatigue tests were carried out for a 304 stainless steel at room temperature. A series of ...
The aim of this study is to analyse the influence of both the microstructure and defects on the high...
PVP2012-78164International audienceFatigue life of polycrystalline materials is mainly governed by t...
In this work stage I crack initiation in polycrystalline nickel-based superalloys is investigated by...
International audienceFatigue crack initiation in ductile alloys like austenitic stainless steels is...
International audienceGrowing experimental capabilities (through both serial sectioning and X-ray to...
The experimental determination of fatigue material properties is elaborate. A solution might be give...
International audience3D discrete dislocation dynamic (DDD) simulations are performed to simulate st...
International audienceA non-local polycrystal approach, taking into account strain gradients, is pro...
Abstract Multiscale microstructural and micromechanical modeling has arisen as a candidate to impro...
International audienceA methodology for modeling realistic microstructures of metallic polycrystalli...
AbstractA methodology for modeling realistic microstructures of metallic polycrystalline material is...
AbstractNumerous studies have pointed out the major role of microstructural phenomena in the nucleat...
International audienceThe present paper is devoted to the study of the parameters responsible for th...
Low cycle fatigue tests were carried out for a 304 stainless steel at room temperature. A series of ...
The aim of this study is to analyse the influence of both the microstructure and defects on the high...
PVP2012-78164International audienceFatigue life of polycrystalline materials is mainly governed by t...
In this work stage I crack initiation in polycrystalline nickel-based superalloys is investigated by...
International audienceFatigue crack initiation in ductile alloys like austenitic stainless steels is...
International audienceGrowing experimental capabilities (through both serial sectioning and X-ray to...
The experimental determination of fatigue material properties is elaborate. A solution might be give...
International audience3D discrete dislocation dynamic (DDD) simulations are performed to simulate st...
International audienceA non-local polycrystal approach, taking into account strain gradients, is pro...
Abstract Multiscale microstructural and micromechanical modeling has arisen as a candidate to impro...