Size dependent behavior is observed in polycrystalline metals where the yield stress follows an inverse power relation with the grain size. This phenomenon, commonly known as the Hall–Petch effect, is attributed to the resistance at grain boundaries constraining dislocation motion. Classical continuum models cannot capture this phenomenon. A remedy is to adopt higher-order crystal plasticity formulations that model the interfacial behavior with non-standard boundary terms. However, such a fine-scale approach is computationally expensive for large problems. In this paper, a homogenization theory is proposed showing how a crystal plasticity model with one slip system translates consistently into the macroscopic scale. For simplicity, we consi...
In this paper, a gradient crystal plasticity model in a polycrystalline grain structure is investiga...
Polycrystalline materials with mean grain size smaller than 10nm will soften if its mean grain size ...
A strain gradient dependent crystal plasticity approach is used to model the constitutive behaviour ...
Size dependent behavior is observed in polycrystalline metals where the yield stress follows an inve...
We study an idealized bending problem where two types of size effects are present – one induced by t...
International audienceA long-standing problem in the modelling of polycrystal behavior from the know...
International audienceThe effect of the dislocation density tensor is introduced into the classical ...
A multiscale approach to modelling size effect in crystal plasticity is presented. At the microscale...
Summary This paper focuses on the micromechanical description of the mechanical response of an FCC m...
Interactions between dislocations and grain boundaries play an important role in the plastic deforma...
Crystal plasticity analysis of slip deformation in metal microstructure enables one to calculate den...
AbstractMetal matrix composites (MMCs) comprising nano/microcrystalline matrices and reinforcements ...
In this paper, a gradient crystal plasticity model in a polycrystalline grain structure is investiga...
Polycrystalline materials with mean grain size smaller than 10nm will soften if its mean grain size ...
A strain gradient dependent crystal plasticity approach is used to model the constitutive behaviour ...
Size dependent behavior is observed in polycrystalline metals where the yield stress follows an inve...
We study an idealized bending problem where two types of size effects are present – one induced by t...
International audienceA long-standing problem in the modelling of polycrystal behavior from the know...
International audienceThe effect of the dislocation density tensor is introduced into the classical ...
A multiscale approach to modelling size effect in crystal plasticity is presented. At the microscale...
Summary This paper focuses on the micromechanical description of the mechanical response of an FCC m...
Interactions between dislocations and grain boundaries play an important role in the plastic deforma...
Crystal plasticity analysis of slip deformation in metal microstructure enables one to calculate den...
AbstractMetal matrix composites (MMCs) comprising nano/microcrystalline matrices and reinforcements ...
In this paper, a gradient crystal plasticity model in a polycrystalline grain structure is investiga...
Polycrystalline materials with mean grain size smaller than 10nm will soften if its mean grain size ...
A strain gradient dependent crystal plasticity approach is used to model the constitutive behaviour ...