We present experiments together with corresponding molecular dynamics (MD) simulations of a two-dimensional (2D) and a three-dimensional (3D) granular material in Couette shear cells undergoing slow shearing. In 2D, the grains are disks conned between an inner, rotating wheel and a xed outer ring. In 3D, the particles are disks, and a part of the bottom is rotating with the inner ring. The simulation results are compared to experimental studies and quantitative agreement is found within about 80-90 per-cent. Tracking the positions and orientations of individual particles allows us to obtain also density distributions, velocity- and rotation-rates in the system. The key issue is to show in how far quantitative agreement between an experiment...
Frictional and frictionless granular materials in a split-bottom ring shear cell geometry show wide ...
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...
We present experiments along with molecular-dynamics (MD) simulations of a two-dimensional (2D) gran...
The mechanical response of cohesionless granular materials under general engineering stress conditio...
This paper aims at studying the shear behavior of mixtures of fine and coarse particles by classical...
A so-called “split-bottom ring shear cell” leads to wide shear bands under slow, quasi-static deform...
Granular flows are frequently seen in industry today but their complex nature makes it difficult to...
Granular materials have vast applications both in industry and in daily life. They display quite int...
In the so-called “split-bottom ring shear cell ” [1], wide shear bands are observed under slow, quas...
Granular materials such as sand and grains, are large conglomerations of discrete macro-scopic parti...
Using Discrete Element Simulations (DEM), an effort is made to study the so called “Split bottom rin...
The structure and dynamics of the two-dimensional linear shear flow of inelastic disks at high are...
This dissertation explores the numerical tools used for computer simulations and the qualitative mic...
The authors consider the dynamics of interacting elastic disks in the plane. This is an experimental...
Frictional and frictionless granular materials in a split-bottom ring shear cell geometry show wide ...
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...
We present experiments along with molecular-dynamics (MD) simulations of a two-dimensional (2D) gran...
The mechanical response of cohesionless granular materials under general engineering stress conditio...
This paper aims at studying the shear behavior of mixtures of fine and coarse particles by classical...
A so-called “split-bottom ring shear cell” leads to wide shear bands under slow, quasi-static deform...
Granular flows are frequently seen in industry today but their complex nature makes it difficult to...
Granular materials have vast applications both in industry and in daily life. They display quite int...
In the so-called “split-bottom ring shear cell ” [1], wide shear bands are observed under slow, quas...
Granular materials such as sand and grains, are large conglomerations of discrete macro-scopic parti...
Using Discrete Element Simulations (DEM), an effort is made to study the so called “Split bottom rin...
The structure and dynamics of the two-dimensional linear shear flow of inelastic disks at high are...
This dissertation explores the numerical tools used for computer simulations and the qualitative mic...
The authors consider the dynamics of interacting elastic disks in the plane. This is an experimental...
Frictional and frictionless granular materials in a split-bottom ring shear cell geometry show wide ...
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...