International audienceIn this study, three dimensional finite element calculations taking into account cubic elasticity and crystalline plasticity are performed in order to quantify the influence of the crystallographic orientation on the development of the plasticity at the crack tip of microstructurally short cracks in 316L stainless steel. The case of a transgranular stage I crack that 'propagates' towards a grain oriented for multiple slip is considered. The values of the crack tip opening/sliding displacements are calculated for the crack located at different distances of the 'multiple slip' grain. Two multiple slip orientations are considered for this adjacent grain: a orientation and a orientation. Calculations show that the openin...
Microstructurally short cracks with lengths up to about ten grains are known to be strongly influenc...
International audienceA methodology for modeling realistic microstructures of metallic polycrystalli...
The propagation of short fatigue cracks is simulated by means of a three-dimensional model. Under lo...
The paper presents an analysis of the effect of the grain orientations on a short Stage I surface cr...
The paper presents a finite element crystal plasticity model for microstructurally short cracks. The...
The paper presents an analysis of the effects of grain orientations on a short, kinked surface crack...
PVP2012-78164International audienceFatigue life of polycrystalline materials is mainly governed by t...
International audience3D discrete dislocation dynamic (DDD) simulations are performed to simulate st...
International audienceFatigue crack initiation in ductile alloys like austenitic stainless steels is...
International audience3D discrete dislocation dynamic (DDD) simulations are performed to simulate st...
AbstractNumerous studies have pointed out the major role of microstructural phenomena in the nucleat...
International audiencePresent study aims at analyzing the crack initiation in an austenitic stainles...
International audienceThe present paper is devoted to the study of the parameters responsible for th...
International audienceThe size and the character (low and large angle, special boundaries, tilt and ...
Microstructurally short cracks with lengths up to about ten grains are known to be strongly influenc...
International audienceA methodology for modeling realistic microstructures of metallic polycrystalli...
The propagation of short fatigue cracks is simulated by means of a three-dimensional model. Under lo...
The paper presents an analysis of the effect of the grain orientations on a short Stage I surface cr...
The paper presents a finite element crystal plasticity model for microstructurally short cracks. The...
The paper presents an analysis of the effects of grain orientations on a short, kinked surface crack...
PVP2012-78164International audienceFatigue life of polycrystalline materials is mainly governed by t...
International audience3D discrete dislocation dynamic (DDD) simulations are performed to simulate st...
International audienceFatigue crack initiation in ductile alloys like austenitic stainless steels is...
International audience3D discrete dislocation dynamic (DDD) simulations are performed to simulate st...
AbstractNumerous studies have pointed out the major role of microstructural phenomena in the nucleat...
International audiencePresent study aims at analyzing the crack initiation in an austenitic stainles...
International audienceThe present paper is devoted to the study of the parameters responsible for th...
International audienceThe size and the character (low and large angle, special boundaries, tilt and ...
Microstructurally short cracks with lengths up to about ten grains are known to be strongly influenc...
International audienceA methodology for modeling realistic microstructures of metallic polycrystalli...
The propagation of short fatigue cracks is simulated by means of a three-dimensional model. Under lo...