The formation of misoriented microstructures in plastic deformation is explained within the framework of continuum me-chanics as a result of the reduction of the energetically costly hardening in multislip by local lattice rotations.
We develop a micromechanical theory of dislocation structures and finite deformation single crystal ...
We consider single-crystal plasticity in the limiting case of infinite latent hard-ening, which sign...
A simplified one dimensional rate dependent model for the evolution of plastic distortion is obtaine...
The analysis and simulation of microstructures in solids has gained crucial importance, virtue of th...
Plastic deformation and its possible combination with other loadings (thermal, irradiation etc.) ind...
We show how the theory of crystals with microstructure developed by Ortiz et al. can be applied to p...
In this paper we give an overview on the modeling of inelastic microstructures using variational met...
A unifying program modeling the evolution of microstructures and their effects on the macroscopic re...
A gradient crystal plasticity model in the framework of continuum thermodynamics and rate variationa...
At the microscopic scale, deformed crystalline materials usually show heterogeneous plastic deformat...
Microstructures in materials generally originate from a non-convex free energy, whereby the evolutio...
Plastic deformation induces various types of dislocation microstructures at different length scales,...
We consider single-crystal plasticity in the limiting case of infinite latent hardening, which signi...
In this talk, a variational model for gradient plasticity is proposed, which is based on an energy f...
Plastically deformed crystals are often observed to develop intricate dislocation patterns such as t...
We develop a micromechanical theory of dislocation structures and finite deformation single crystal ...
We consider single-crystal plasticity in the limiting case of infinite latent hard-ening, which sign...
A simplified one dimensional rate dependent model for the evolution of plastic distortion is obtaine...
The analysis and simulation of microstructures in solids has gained crucial importance, virtue of th...
Plastic deformation and its possible combination with other loadings (thermal, irradiation etc.) ind...
We show how the theory of crystals with microstructure developed by Ortiz et al. can be applied to p...
In this paper we give an overview on the modeling of inelastic microstructures using variational met...
A unifying program modeling the evolution of microstructures and their effects on the macroscopic re...
A gradient crystal plasticity model in the framework of continuum thermodynamics and rate variationa...
At the microscopic scale, deformed crystalline materials usually show heterogeneous plastic deformat...
Microstructures in materials generally originate from a non-convex free energy, whereby the evolutio...
Plastic deformation induces various types of dislocation microstructures at different length scales,...
We consider single-crystal plasticity in the limiting case of infinite latent hardening, which signi...
In this talk, a variational model for gradient plasticity is proposed, which is based on an energy f...
Plastically deformed crystals are often observed to develop intricate dislocation patterns such as t...
We develop a micromechanical theory of dislocation structures and finite deformation single crystal ...
We consider single-crystal plasticity in the limiting case of infinite latent hard-ening, which sign...
A simplified one dimensional rate dependent model for the evolution of plastic distortion is obtaine...