The paper presents an analysis of the effect of the grain orientations on a short Stage I surface crack in a 316L stainless steel. The analysis is based on a plane-strain finite element crystal plasticity model. The model consists of 212 randomly shaped, sized and oriented grains that is loaded monotonically in uniaxial tension to a maximum load of 1.12Rp0.2 (280 MPa). The influence of random grain structure on a crack is assessed by calculating the crack tip opening (CTOD) and sliding displacements (CTSD) for single crystal and polycrystal models, considering also different crystallographic orientations. In the single crystal case theCTODand CTSD may differ by more than one order of magnitude. Near the crack tip slip is activated on all th...
Small scale yielding around a mode I crack is analysed using polycrystalline discrete dislocation pl...
International audienceThe size and the character (low and large angle, special boundaries, tilt and ...
The objective of this study was to determine how the deformation propensities of individual grains o...
The paper presents an analysis of the effects of grain orientations on a short, kinked surface crack...
The paper presents a finite element crystal plasticity model for microstructurally short cracks. The...
International audienceIn this study, three dimensional finite element calculations taking into accou...
Microstructurally short cracks with lengths up to about ten grains are known to be strongly influenc...
PVP2012-78164International audienceFatigue life of polycrystalline materials is mainly governed by t...
International audienceFatigue crack initiation in ductile alloys like austenitic stainless steels is...
polycrystalline material; crystal plasticity The dominant processes in the initialization and propag...
International audience3D discrete dislocation dynamic (DDD) simulations are performed to simulate st...
International audience3D discrete dislocation dynamic (DDD) simulations are performed to simulate st...
Nuclear structural material austenitic stainless steel 316L is a polycrystalline composed of single ...
The aim of this study is to analyse the influence of both the microstructure and defects on the high...
Small scale yielding around a mode I crack is analysed using polycrystalline discrete dislocation pl...
International audienceThe size and the character (low and large angle, special boundaries, tilt and ...
The objective of this study was to determine how the deformation propensities of individual grains o...
The paper presents an analysis of the effects of grain orientations on a short, kinked surface crack...
The paper presents a finite element crystal plasticity model for microstructurally short cracks. The...
International audienceIn this study, three dimensional finite element calculations taking into accou...
Microstructurally short cracks with lengths up to about ten grains are known to be strongly influenc...
PVP2012-78164International audienceFatigue life of polycrystalline materials is mainly governed by t...
International audienceFatigue crack initiation in ductile alloys like austenitic stainless steels is...
polycrystalline material; crystal plasticity The dominant processes in the initialization and propag...
International audience3D discrete dislocation dynamic (DDD) simulations are performed to simulate st...
International audience3D discrete dislocation dynamic (DDD) simulations are performed to simulate st...
Nuclear structural material austenitic stainless steel 316L is a polycrystalline composed of single ...
The aim of this study is to analyse the influence of both the microstructure and defects on the high...
Small scale yielding around a mode I crack is analysed using polycrystalline discrete dislocation pl...
International audienceThe size and the character (low and large angle, special boundaries, tilt and ...
The objective of this study was to determine how the deformation propensities of individual grains o...