Add to ORKGAbstract. The anisotropic mechanical response of f.c.c. metals deformed up to large strains at low homologous temperatures is controlled by interfaces, namely by fragment and grain boundaries. The proposed model starts from initial grain orientations and the corresponding slip rates as predicted by a full constraints (FC) Taylor code. It describes the cell structure development on the microscopic scale and the fragment structure development on the mesoscopic scale in terms of evolution equations for dislocation densities in the twelve f.c.c. slip systems and for disclination densities in six fragment boundary families, respectively. The redundant dislocation densities (or: the cell walls) and the immobile disclination densities and strength...
Within each columnar grain of a metallic film, the resistance to dislocation glide varies in functio...
International audienceThe development of a relevant constitutive model adapted to sheet metal formin...
Interactions between dislocations and grain boundaries play an important role in the plastic deforma...
An integrated substructure and texture evolution model is used to study grain subdivision and anisot...
The substructure development in f.c.c. monocrystals and polycrystal grains under cold rolling is mod...
Large strain plastic deformation of f.c.c. metals at low homologous temperatures results in the subd...
The nonuniform distribution of dislocations in metals causes a material anisotropy that man-ifests i...
AbstractThe non-uniform distribution of dislocations in metals causes a material anisotropy that man...
A continuum mechanics model is introduced for a core and structure sensitive modeling of grain bound...
This work focuses on the modeling of the evolution of anisotropy induced by the development of the d...
Microstructure evolution is largely dominated by the internal stress fields that appear upon the app...
The geometrically non-linear scale dependent response of polycrystal FCC metals is modelled by an en...
AbstractAn atomistic-to-continuum method is developed to derive dislocation, generalized-disclinatio...
Within each columnar grain of a metallic film, the resistance to dislocation glide varies in functio...
International audienceThe development of a relevant constitutive model adapted to sheet metal formin...
Interactions between dislocations and grain boundaries play an important role in the plastic deforma...
An integrated substructure and texture evolution model is used to study grain subdivision and anisot...
The substructure development in f.c.c. monocrystals and polycrystal grains under cold rolling is mod...
Large strain plastic deformation of f.c.c. metals at low homologous temperatures results in the subd...
The nonuniform distribution of dislocations in metals causes a material anisotropy that man-ifests i...
AbstractThe non-uniform distribution of dislocations in metals causes a material anisotropy that man...
A continuum mechanics model is introduced for a core and structure sensitive modeling of grain bound...
This work focuses on the modeling of the evolution of anisotropy induced by the development of the d...
Microstructure evolution is largely dominated by the internal stress fields that appear upon the app...
The geometrically non-linear scale dependent response of polycrystal FCC metals is modelled by an en...
AbstractAn atomistic-to-continuum method is developed to derive dislocation, generalized-disclinatio...
Within each columnar grain of a metallic film, the resistance to dislocation glide varies in functio...
International audienceThe development of a relevant constitutive model adapted to sheet metal formin...
Interactions between dislocations and grain boundaries play an important role in the plastic deforma...