Add to ORKGWe present an analogy between large plastic deformations of polycrystals and turbulent flows in fluid dynamics. The analogy explains a number of effects observed during large deformations, still unexplained in the language of plasticity theory. We also propose a phenomenological criteria characterizing the “turbulence ” of polycrystals. Using this criteria, the paper shows that simple shear is possible only in materials whose representative elements admit a non-symmetric component of the corresponding velocity gradient. If this condition is not satisfied, the material only imitates simple shear replacing it with pure shear
The plastic response of metals is determined by the collective, coarse-grained dynamics of dislocati...
[[abstract]]Based on a series representation the tensile stress-strain relation of a polycrystal is ...
This paper develops a geometrically linear formulation of higher gradient plasticity of single and p...
The plastic flow of a polycrystal is calculated assuming that no sliding does occur if the in-plane ...
International audienceThis paper is devoted to the description of the general relationships between ...
The major cause of anisotropic plastic response in polycrystalline metals is crystallographic textur...
For visco-plasticity in polycrystalline solids under high strain rates, we introduce a dynamic flow ...
Abstract This contribution aims in a geometrically linear formulation of higher gradient plasticity ...
Shear banding, a type of inhomogeneous plastic flow involving very large local strains, occurs in a ...
© 2014 Faculty of Metallurgy. All rights reserved. The paper is devoted to the analysis of such an i...
The paper deals with some new evolution equations for gradient viscoplasticity. Geometric and kinema...
Crystalline solids undergo plastic deformation and subsequently flow when subjected to stresses beyo...
Foams, gels, emulsions, polymer solutions, pastes and even cell assemblies display both liquid and s...
The plastic response of metals is determined by the collective, coarse-grained dynamics of dislocati...
[[abstract]]Based on a series representation the tensile stress-strain relation of a polycrystal is ...
This paper develops a geometrically linear formulation of higher gradient plasticity of single and p...
The plastic flow of a polycrystal is calculated assuming that no sliding does occur if the in-plane ...
International audienceThis paper is devoted to the description of the general relationships between ...
The major cause of anisotropic plastic response in polycrystalline metals is crystallographic textur...
For visco-plasticity in polycrystalline solids under high strain rates, we introduce a dynamic flow ...
Abstract This contribution aims in a geometrically linear formulation of higher gradient plasticity ...
Shear banding, a type of inhomogeneous plastic flow involving very large local strains, occurs in a ...
© 2014 Faculty of Metallurgy. All rights reserved. The paper is devoted to the analysis of such an i...
The paper deals with some new evolution equations for gradient viscoplasticity. Geometric and kinema...
Crystalline solids undergo plastic deformation and subsequently flow when subjected to stresses beyo...
Foams, gels, emulsions, polymer solutions, pastes and even cell assemblies display both liquid and s...
The plastic response of metals is determined by the collective, coarse-grained dynamics of dislocati...
[[abstract]]Based on a series representation the tensile stress-strain relation of a polycrystal is ...
This paper develops a geometrically linear formulation of higher gradient plasticity of single and p...