We present a finite element method for the analysis of ductile crystals whose energy depends on the density of geometrically necessary dislocations (GNDs). We specifically focus on models in which the energy of the GNDs is assumed to be proportional to the total variation of the slip strains. In particular, the GND energy is homogeneous of degree one in the slip strains. Such models indeed arise from rigorous multiscale analysis as the macroscopic limit of discrete dislocation models or from phenomenological considerations such as a line-tension approximation for the dislocation self-energy. The incorporation of internal variable gradients into the free energy of the system renders the constitutive model non-local. We show that an equivalen...
The dynamics of large amounts of dislocations is the governing mechanism in metal plasticity. The fr...
We study dislocation networks in the plane using the vectorial phase-field model in- troduced by Ort...
During forming processes most metals develop cellular dislocation structures due to dislocation slip...
The purpose of the current work is the formulation and comparison of two finite element algorithms f...
We deduce a macroscopic strain gradient theory for plasticity from a model of discrete dislocations....
We propose a deformation theory of strain gradient crystal plasticity that accounts for the density ...
The present contribution addresses a crystal plasticity formulation which incorporates hardening eff...
In this thesis we consider a geometrically nonlinear model of crystal elastoplasticity with one acti...
A strain gradient-dependent crystal plasticity approach is presented to model the constitutive behav...
Plastically deformed crystals are often observed to develop intricate dislocation patterns such as t...
The singular nature of the elastic fields produced by dislocations presents conceptual challenges an...
AbstractA finite-strain higher-order gradient crystal plasticity model accounting for the backstress...
A framework for carrying out finite deformation discrete dislocation plasticity calculations is pres...
During forming processes most metals develop cellular dislocation structures due to dislocation slip...
Current strategies of computational crystal plasticity that focus on individual atoms or dislocation...
The dynamics of large amounts of dislocations is the governing mechanism in metal plasticity. The fr...
We study dislocation networks in the plane using the vectorial phase-field model in- troduced by Ort...
During forming processes most metals develop cellular dislocation structures due to dislocation slip...
The purpose of the current work is the formulation and comparison of two finite element algorithms f...
We deduce a macroscopic strain gradient theory for plasticity from a model of discrete dislocations....
We propose a deformation theory of strain gradient crystal plasticity that accounts for the density ...
The present contribution addresses a crystal plasticity formulation which incorporates hardening eff...
In this thesis we consider a geometrically nonlinear model of crystal elastoplasticity with one acti...
A strain gradient-dependent crystal plasticity approach is presented to model the constitutive behav...
Plastically deformed crystals are often observed to develop intricate dislocation patterns such as t...
The singular nature of the elastic fields produced by dislocations presents conceptual challenges an...
AbstractA finite-strain higher-order gradient crystal plasticity model accounting for the backstress...
A framework for carrying out finite deformation discrete dislocation plasticity calculations is pres...
During forming processes most metals develop cellular dislocation structures due to dislocation slip...
Current strategies of computational crystal plasticity that focus on individual atoms or dislocation...
The dynamics of large amounts of dislocations is the governing mechanism in metal plasticity. The fr...
We study dislocation networks in the plane using the vectorial phase-field model in- troduced by Ort...
During forming processes most metals develop cellular dislocation structures due to dislocation slip...