The transition regime from quasi-static to dynamic shear regime is studied by discrete element method (DEM) and by means of a mesoscopic model. We show that at moderate shear rate multiple shear bands appear which eventually appear as a continuous shear profile for large shear rates. The model and the DEM simulations both show a minimum in the shear stress and a maximum for the number of simultaneous shear bands, however the position of the two do not coincide. The scaling analysis of the kinetic energy indicates that the peak in the latter is the relevant parameter. We also show how the long range order present in the quasi-static regime is gradually destroyed by the presence of multiple shear bands
6 pagesInternational audienceBeing ubiquitous in a large variety of geomaterials, granular assemblie...
A so-called “split-bottom ring shear cell” leads to wide shear bands under slow, quasi-static deform...
International audienceGranular materials are now known to be an illustration of complex materials as...
The transition regime from quasi-static to dynamic shear regime is studied by discrete element metho...
WOS:000310136500008International audienceAt elevated stress levels, the deformation of granular asse...
In contrast to continuum systems where localization or shear banding arises through a bifurcation in...
Localisation of deformation in narrow shear bands is a fundamental phenomenon of granular material b...
International audienceGranular materials can develop two different failure modes following their ini...
Frictional and frictionless granular materials in a split-bottom ring shear cell geometry show wide ...
We see granular materials all around us in nature and industry in landslides, sand, avalanches and i...
A new, small-strain constitutive model, incorporating elastoplastic coupling to describe developing ...
<p>Granular materials are hard to understand due to their discrete and a-thermal nature. The mechani...
A so-called “split-bottom ring shear cell ” leads to wide shear bands under slow, quasi-static defor...
A so-called “split-bottom ring shear cell ” leads to wide shear bands under slow, quasi-static defor...
A system of equations modeling antiplane shear in a granular material is considered. The model inclu...
6 pagesInternational audienceBeing ubiquitous in a large variety of geomaterials, granular assemblie...
A so-called “split-bottom ring shear cell” leads to wide shear bands under slow, quasi-static deform...
International audienceGranular materials are now known to be an illustration of complex materials as...
The transition regime from quasi-static to dynamic shear regime is studied by discrete element metho...
WOS:000310136500008International audienceAt elevated stress levels, the deformation of granular asse...
In contrast to continuum systems where localization or shear banding arises through a bifurcation in...
Localisation of deformation in narrow shear bands is a fundamental phenomenon of granular material b...
International audienceGranular materials can develop two different failure modes following their ini...
Frictional and frictionless granular materials in a split-bottom ring shear cell geometry show wide ...
We see granular materials all around us in nature and industry in landslides, sand, avalanches and i...
A new, small-strain constitutive model, incorporating elastoplastic coupling to describe developing ...
<p>Granular materials are hard to understand due to their discrete and a-thermal nature. The mechani...
A so-called “split-bottom ring shear cell ” leads to wide shear bands under slow, quasi-static defor...
A so-called “split-bottom ring shear cell ” leads to wide shear bands under slow, quasi-static defor...
A system of equations modeling antiplane shear in a granular material is considered. The model inclu...
6 pagesInternational audienceBeing ubiquitous in a large variety of geomaterials, granular assemblie...
A so-called “split-bottom ring shear cell” leads to wide shear bands under slow, quasi-static deform...
International audienceGranular materials are now known to be an illustration of complex materials as...