© 2014 Elsevier Ltd. All rights reserved.Granular materials, in common with many complex systems, exhibit a range of self-organization processes that control their mechanical performance. Many of these processes directly manifest in the evolution of the contact network as the material responds to applied stresses and strains. Yet the connections between the topology, structure and dynamics of this evolving contact network remain poorly understood. Here we demonstrate that dense granular systems under a variety of loading conditions exhibit preferred structural ordering reminiscent of a superfamily classification. In particular, two distinct superfamilies are discovered: the first is typically exhibited by materials in the pre-failure regime...
Plastic deformation is an irreversible change in form, occurring when a material internally reconfig...
The behaviour of a model granular material (an assembly of slightly polydisperse spherical beads, wi...
Using numerical simulations, we investigate the evolution of the structure of force networks in slow...
We examine emergent, self-organized particle cluster conformations in quasistatically deforming dens...
Solids are distinguished from fluids by their ability to resist shear. In equilibrium systems, the r...
International audienceInitial states of granular assemblies, which determine the response to quasi-s...
International audienceWe focus on structural evolution inside a deforming granular material, in thre...
Irreversible compaction and microstructural changes of a 2D model of cohesive granular material unde...
We use a Markov transition matrix-based analysis to explore the structures and structural transition...
We present a method for discovering temporal transitions in the macroscopic response of two granular...
International audienceWe use a Markov transition matrix-based analysis to explore the structures and...
We show how rigidity emerges in experiments of sheared two-dimensional frictional granular materials...
[Departement_IRSTEA]Eaux [TR1_IRSTEA]RIVAGE [Departement_IRSTEA]Eaux [TR1_IRSTEA]RIVAGEInternational...
Granular materials, like sand, powder or grains present intriguing phenomena. Vibration and shearing...
From pharmaceutical to mining or traveling desert dunes to earthquakes, granular materials are at th...
Plastic deformation is an irreversible change in form, occurring when a material internally reconfig...
The behaviour of a model granular material (an assembly of slightly polydisperse spherical beads, wi...
Using numerical simulations, we investigate the evolution of the structure of force networks in slow...
We examine emergent, self-organized particle cluster conformations in quasistatically deforming dens...
Solids are distinguished from fluids by their ability to resist shear. In equilibrium systems, the r...
International audienceInitial states of granular assemblies, which determine the response to quasi-s...
International audienceWe focus on structural evolution inside a deforming granular material, in thre...
Irreversible compaction and microstructural changes of a 2D model of cohesive granular material unde...
We use a Markov transition matrix-based analysis to explore the structures and structural transition...
We present a method for discovering temporal transitions in the macroscopic response of two granular...
International audienceWe use a Markov transition matrix-based analysis to explore the structures and...
We show how rigidity emerges in experiments of sheared two-dimensional frictional granular materials...
[Departement_IRSTEA]Eaux [TR1_IRSTEA]RIVAGE [Departement_IRSTEA]Eaux [TR1_IRSTEA]RIVAGEInternational...
Granular materials, like sand, powder or grains present intriguing phenomena. Vibration and shearing...
From pharmaceutical to mining or traveling desert dunes to earthquakes, granular materials are at th...
Plastic deformation is an irreversible change in form, occurring when a material internally reconfig...
The behaviour of a model granular material (an assembly of slightly polydisperse spherical beads, wi...
Using numerical simulations, we investigate the evolution of the structure of force networks in slow...