The flow of dense granular materials at low inertial numbers cannot be fully characterized by local rheological models; several nonlocal rheologies have recently been developed to address these shortcomings. To test the efficacy of these models across different packing fractions and shear rates, we perform experiments in a quasi-2D annular shear cell with a fixed outer wall and a rotating inner wall, using photoelastic particles. The apparatus is designed to measure both the stress ratio μ (the ratio of shear to normal stress) and the inertial number I through the use of a torque sensor, laser-cut leaf springs, and particle-tracking. We obtain μ(I) curves for several different packing fractions and rotation rates, and successfully find that...
Using discrete simulations, we investigate the behavior of a model granular material within an annul...
The steady-state shear rheology of granular materials is investigated in slow quasistatic and inerti...
We analyse the rheology of gravity-driven, dry granular flows in experiments where individual forces...
The flow of dense granular materials at low inertial numbers cannot be fully characterized by local ...
Boundary shape, particularly roughness, strongly controls the amount of wall slip in dense granular ...
International audienceGranular materials do not always flow homogeneously like fluids when submitted...
Recent dense granular flow experiments have shown that shear deformation in one region of a granular...
One of the biggest challenges facing experimental studies of granular rheology is the opacity of the...
We probe the secondary rheology of granular media, by imposing a main flow and immersing a vane-shap...
Abstract –We probe the secondary rheology of granular media, by imposing a main flow and immersing a...
The rheology of dense granular flows is studied numerically in a shear cell controlled at constant p...
A recently proposed nonlocal rheology for dense granular flow, based on the concept of nonlocal gran...
The flow of frictionless granular particles is studied with stress-controlled discrete element model...
Granular materials do not always flow homogeneously like fluids when submitted to external stress, b...
In the field of granular rheology, an important open question is to understand the influence of boun...
Using discrete simulations, we investigate the behavior of a model granular material within an annul...
The steady-state shear rheology of granular materials is investigated in slow quasistatic and inerti...
We analyse the rheology of gravity-driven, dry granular flows in experiments where individual forces...
The flow of dense granular materials at low inertial numbers cannot be fully characterized by local ...
Boundary shape, particularly roughness, strongly controls the amount of wall slip in dense granular ...
International audienceGranular materials do not always flow homogeneously like fluids when submitted...
Recent dense granular flow experiments have shown that shear deformation in one region of a granular...
One of the biggest challenges facing experimental studies of granular rheology is the opacity of the...
We probe the secondary rheology of granular media, by imposing a main flow and immersing a vane-shap...
Abstract –We probe the secondary rheology of granular media, by imposing a main flow and immersing a...
The rheology of dense granular flows is studied numerically in a shear cell controlled at constant p...
A recently proposed nonlocal rheology for dense granular flow, based on the concept of nonlocal gran...
The flow of frictionless granular particles is studied with stress-controlled discrete element model...
Granular materials do not always flow homogeneously like fluids when submitted to external stress, b...
In the field of granular rheology, an important open question is to understand the influence of boun...
Using discrete simulations, we investigate the behavior of a model granular material within an annul...
The steady-state shear rheology of granular materials is investigated in slow quasistatic and inerti...
We analyse the rheology of gravity-driven, dry granular flows in experiments where individual forces...