A continuum model of plasticity, Mesoscopic Field Dislocation Mechanics (MFDM), is used to study the interplay between grain size and grain orientation on the mechanical response of multicrystalline thin films undergoing plane strain tension. It is shown that the grain size dependence in the case of multicrystals is controlled by those grains which are relatively more susceptible to plastic deformation. This effect is captured to some extent by conventional crystal plasticity theory; however, the explicit incorporation of polar dislocations in the MFDM model significantly enhances the overall mechanical response as demonstrated in the paper
Discrete dislocation dynamics simulations are carried out to systematically investigate the microstr...
Stress development and relaxation in polycrystalline thin films perfectly bonded to a stiff substrat...
International audienceA strain gradient crystal plasticity model is used to explore the grain size e...
A continuum model of plasticity, Mesoscopic Field Dislocation Mechanics (MFDM), is used to study the...
A continuum model of plasticity, Mesoscopic Field Dislocation Mechanics (MFDM), is used to study the...
A continuum model of plasticity, Phenomenological Mesoscopic Field Dislocation Mechanics (PMFDM), is...
This work involves the modeling and understanding of mechanical behavior of crystalline materials us...
3-D discrete dislocation dynamics simulations were used to investigate the size-dependent plasticity...
Plastic deformation in crystalline materials is mediated by dislocation motion and their interaction...
International audienceA coarse-grained extension of a recent nanoscale elasto-plastic model of polar...
Plastic deformation of classical crystalline materials is essentially dominated by dislocations and ...
Discrete dislocation dynamics simulations are carried out to systematically investigate the microstr...
Discrete dislocation dynamics simulations are carried out to systematically investigate the microstr...
Stress development and relaxation in polycrystalline thin films perfectly bonded to a stiff substrat...
International audienceA strain gradient crystal plasticity model is used to explore the grain size e...
A continuum model of plasticity, Mesoscopic Field Dislocation Mechanics (MFDM), is used to study the...
A continuum model of plasticity, Mesoscopic Field Dislocation Mechanics (MFDM), is used to study the...
A continuum model of plasticity, Phenomenological Mesoscopic Field Dislocation Mechanics (PMFDM), is...
This work involves the modeling and understanding of mechanical behavior of crystalline materials us...
3-D discrete dislocation dynamics simulations were used to investigate the size-dependent plasticity...
Plastic deformation in crystalline materials is mediated by dislocation motion and their interaction...
International audienceA coarse-grained extension of a recent nanoscale elasto-plastic model of polar...
Plastic deformation of classical crystalline materials is essentially dominated by dislocations and ...
Discrete dislocation dynamics simulations are carried out to systematically investigate the microstr...
Discrete dislocation dynamics simulations are carried out to systematically investigate the microstr...
Stress development and relaxation in polycrystalline thin films perfectly bonded to a stiff substrat...
International audienceA strain gradient crystal plasticity model is used to explore the grain size e...
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