We deduce a macroscopic strain gradient theory for plasticity from a model of discrete dislocations. We restrict our analysis to the case of a cylindrical symmetry for the crystal under study, so that the mathematical formulation will involve a two-dimensional variational problem. The dislocations are introduced as point topological defects of the strain fields, for which we compute the elastic energy stored outside the so-called core region. We show that the Gamma-limit of this energy (suitably rescaled), as the core radius tends to zero and the number of dislocations tends to infinity, takes the form E = integral(Omega) (W(beta(e)) + phi(Curl beta(e))) dx, where beta(e) represents the elastic part of the macroscopic strain, and Curl beta(...
We consider single-crystal plasticity in the limiting case of infinite latent hardening, which signi...
Thesis (Ph.D.), School of Mechanical and Materials Engineering, Washington State UniversityClassical...
At the microscopic scale, deformed crystalline materials usually show heterogeneous plastic deformat...
We propose a deformation theory of strain gradient crystal plasticity that accounts for the density ...
We study dislocation networks in the plane using the vectorial phase-field model in- troduced by Ort...
We present a finite element method for the analysis of ductile crystals whose energy depends on the ...
In this paper we show the emergence of polycrystalline structures as a result of elastic energy mini...
A homogenised model for elastic media containing large numbers of dislocations is described. First, ...
This chapter focuses on the foundation and development of various higher-order strain gradient plast...
AbstractA physically motivated and thermodynamically consistent formulation of small strain higher-o...
We develop a micromechanical theory of dislocation structures and finite deformation single crystal ...
Abstract This contribution aims in a geometrically linear formulation of higher gradient plasticity ...
The singular nature of the elastic fields produced by dislocations presents conceptual challenges an...
A geometrically linear continuum mechanics framework is proposed for gradient plasticity combining ’...
Gurtin recently proposed a strain-gradient theory for crystal plasticity in which the gradient effec...
We consider single-crystal plasticity in the limiting case of infinite latent hardening, which signi...
Thesis (Ph.D.), School of Mechanical and Materials Engineering, Washington State UniversityClassical...
At the microscopic scale, deformed crystalline materials usually show heterogeneous plastic deformat...
We propose a deformation theory of strain gradient crystal plasticity that accounts for the density ...
We study dislocation networks in the plane using the vectorial phase-field model in- troduced by Ort...
We present a finite element method for the analysis of ductile crystals whose energy depends on the ...
In this paper we show the emergence of polycrystalline structures as a result of elastic energy mini...
A homogenised model for elastic media containing large numbers of dislocations is described. First, ...
This chapter focuses on the foundation and development of various higher-order strain gradient plast...
AbstractA physically motivated and thermodynamically consistent formulation of small strain higher-o...
We develop a micromechanical theory of dislocation structures and finite deformation single crystal ...
Abstract This contribution aims in a geometrically linear formulation of higher gradient plasticity ...
The singular nature of the elastic fields produced by dislocations presents conceptual challenges an...
A geometrically linear continuum mechanics framework is proposed for gradient plasticity combining ’...
Gurtin recently proposed a strain-gradient theory for crystal plasticity in which the gradient effec...
We consider single-crystal plasticity in the limiting case of infinite latent hardening, which signi...
Thesis (Ph.D.), School of Mechanical and Materials Engineering, Washington State UniversityClassical...
At the microscopic scale, deformed crystalline materials usually show heterogeneous plastic deformat...