Introduction The aim of this contribution is to present the current state of our re-search in the field of numerical simulation of dislocations moving in crystalline materials. The simulation is based on recent theory treating dislocation curves and dipolar loops interacting by means of forces of elastic nature and hindered by the lattice friction. The motion and interaction of one dislocation curve and one dipolar loop placed in 3D space i
The dislocation content of each active slip system in a crystal is defined by its Dislocation Densit...
Current strategies of computational crystal plasticity that focus on individual atoms or dislocation...
Crystal plasticity is governed by the motion of lattice dislocations. Although continuum theories of...
The aim of this contribution is to present the current state of our research in the field of numeric...
For an understanding failure behavior of crystalline solids, considerable interest is given to inves...
Dislocations are line defects in crystals. They are primary carries of crystal plasticity. The direc...
Numerical simulation of dislocation motion in disordered crystals with high Peierls relief is perfor...
3D Dislocation dynamics simulations have been carried out to model the interaction between prismatic...
summary:The interaction between dislocation dipolar loops plays an important role in the computation...
The formation of dislocation structures in crystalline metals is simulated with a computer simulatio...
1.Introduction 2.Dislocations and mean curvature flow 3.Parametric description 4.Numerical scheme 5....
Following the publication of several seminal studies, discrete dislocation dynamics has become well-...
Atomistic simulations of accelerating edge and srew dislocations were carried out to study the dynam...
Prediction of the plastic deformation behavior of single crystals based on the collective dynamics o...
The research under this project focused on a theoretical and computational modeling of dislocation d...
The dislocation content of each active slip system in a crystal is defined by its Dislocation Densit...
Current strategies of computational crystal plasticity that focus on individual atoms or dislocation...
Crystal plasticity is governed by the motion of lattice dislocations. Although continuum theories of...
The aim of this contribution is to present the current state of our research in the field of numeric...
For an understanding failure behavior of crystalline solids, considerable interest is given to inves...
Dislocations are line defects in crystals. They are primary carries of crystal plasticity. The direc...
Numerical simulation of dislocation motion in disordered crystals with high Peierls relief is perfor...
3D Dislocation dynamics simulations have been carried out to model the interaction between prismatic...
summary:The interaction between dislocation dipolar loops plays an important role in the computation...
The formation of dislocation structures in crystalline metals is simulated with a computer simulatio...
1.Introduction 2.Dislocations and mean curvature flow 3.Parametric description 4.Numerical scheme 5....
Following the publication of several seminal studies, discrete dislocation dynamics has become well-...
Atomistic simulations of accelerating edge and srew dislocations were carried out to study the dynam...
Prediction of the plastic deformation behavior of single crystals based on the collective dynamics o...
The research under this project focused on a theoretical and computational modeling of dislocation d...
The dislocation content of each active slip system in a crystal is defined by its Dislocation Densit...
Current strategies of computational crystal plasticity that focus on individual atoms or dislocation...
Crystal plasticity is governed by the motion of lattice dislocations. Although continuum theories of...