Shear induced alignment of elongated particles is studied experimentally and numerically. We show that shear alignment of ensembles of macroscopic particles is comparable even on a quantitative level to simple molecular systems, despite the completely different types of particle interactions. We demonstrate that for dry elongated grains the preferred orientation forms a small angle with the streamlines, independent of shear rate across three decades. For a given particle shape, this angle decreases with increasing aspect ratio of the particles. The shear-induced alignment results in a considerable reduction of the effective friction of the granular material
International audienceThe shape of the particles and local friction, separately, are known to strong...
This study examines the influence of particle elongation on the direct shear behaviour of granular m...
We use contact dynamic simulations to perform a systematic investigation of the effects of particles...
The alignment, ordering, and rotation of elongated granular particles was studied in shear flow. The...
International audienceThe first works devoted to the evolution of elongated particles are mainly due...
This paper studies rheological properties of elongated ellipsoidal particles in a model annular shea...
The anisotropy feature is an important characteristic of granular materials in natural life and is c...
The rotation behaviour of rigid particles from a wide range of symmetry classes was analysed in a se...
For axial ratios R> 3c3, porphyroclasts from three mylonites all show a very strong SPO with the lon...
In this work, granular media made of shape anisotropic particles are investigated in heterogeneous, ...
We present an extensive numerical and experimental study, investigating a three-dimensional (3D) gra...
Shear flow is a versatile strategy to align microphase-separated morphologies of diblock copolymers ...
The effect of particle shape on micro and macroscopic behavior is investigated experimentally throug...
International audienceThe shape of the particles and local friction, separately, are known to strong...
This study examines the influence of particle elongation on the direct shear behaviour of granular m...
We use contact dynamic simulations to perform a systematic investigation of the effects of particles...
The alignment, ordering, and rotation of elongated granular particles was studied in shear flow. The...
International audienceThe first works devoted to the evolution of elongated particles are mainly due...
This paper studies rheological properties of elongated ellipsoidal particles in a model annular shea...
The anisotropy feature is an important characteristic of granular materials in natural life and is c...
The rotation behaviour of rigid particles from a wide range of symmetry classes was analysed in a se...
For axial ratios R> 3c3, porphyroclasts from three mylonites all show a very strong SPO with the lon...
In this work, granular media made of shape anisotropic particles are investigated in heterogeneous, ...
We present an extensive numerical and experimental study, investigating a three-dimensional (3D) gra...
Shear flow is a versatile strategy to align microphase-separated morphologies of diblock copolymers ...
The effect of particle shape on micro and macroscopic behavior is investigated experimentally throug...
International audienceThe shape of the particles and local friction, separately, are known to strong...
This study examines the influence of particle elongation on the direct shear behaviour of granular m...
We use contact dynamic simulations to perform a systematic investigation of the effects of particles...