In this chapter, two different strain gradient plasticity models based on nonconvex plastic energies are presented and compared through analytical estimates and numerical experiments. The models are formulated in the simple onedimensional setting, and their ability to reproduce heterogeneous plastic strain processes is analyzed, focusing on strain localization phenomena observed in metallic materials at different length scales. In a geometrically linear context, both models are based on the additive decomposition of the strain into elastic and plastic parts. Moreover, they share the same non-convex plastic energy, and they are both characterized by the same nonlocal plastic energy as well, i.e., a quadratic form of the plastic strain gradie...
A gradient crystal plasticity model in the framework of continuum thermodynamics and rate variationa...
In this paper, a complete picture of the different plastic failure modes that can be predicted by th...
AbstractThis paper compares and evaluates strain-gradient extensions of the conventional plasticity ...
In this chapter, two different strain gradient plasticity models based on nonconvex plastic energies...
At the microscopic scale, deformed crystalline materials usually show heterogeneous plastic deformat...
In this paper two different non-local plasticity models are presented and compared to describe the n...
In this talk, a variational model for gradient plasticity is proposed, which is based on an energy f...
During forming processes most metals develop cellular dislocation structures due to dislocation slip...
During forming processes most metals develop cellular dislocation structures due to dislocation slip...
Plastic deformation and its possible combination with other loadings (thermal, irradiation etc.) ind...
A rate dependent strain gradient crystal plasticity framework is presented where the displacement an...
The paper presents a non‐convex rate dependent strain gradient plasticity framework for the descript...
This paper analyses the effect of the form of the plastic energy potential on the (heterogeneous) di...
AbstractA rate dependent strain gradient crystal plasticity framework is presented where the displac...
AbstractIn this paper two different non-local plasticity models are presented and compared to descri...
A gradient crystal plasticity model in the framework of continuum thermodynamics and rate variationa...
In this paper, a complete picture of the different plastic failure modes that can be predicted by th...
AbstractThis paper compares and evaluates strain-gradient extensions of the conventional plasticity ...
In this chapter, two different strain gradient plasticity models based on nonconvex plastic energies...
At the microscopic scale, deformed crystalline materials usually show heterogeneous plastic deformat...
In this paper two different non-local plasticity models are presented and compared to describe the n...
In this talk, a variational model for gradient plasticity is proposed, which is based on an energy f...
During forming processes most metals develop cellular dislocation structures due to dislocation slip...
During forming processes most metals develop cellular dislocation structures due to dislocation slip...
Plastic deformation and its possible combination with other loadings (thermal, irradiation etc.) ind...
A rate dependent strain gradient crystal plasticity framework is presented where the displacement an...
The paper presents a non‐convex rate dependent strain gradient plasticity framework for the descript...
This paper analyses the effect of the form of the plastic energy potential on the (heterogeneous) di...
AbstractA rate dependent strain gradient crystal plasticity framework is presented where the displac...
AbstractIn this paper two different non-local plasticity models are presented and compared to descri...
A gradient crystal plasticity model in the framework of continuum thermodynamics and rate variationa...
In this paper, a complete picture of the different plastic failure modes that can be predicted by th...
AbstractThis paper compares and evaluates strain-gradient extensions of the conventional plasticity ...