Particle shape plays a key role in the mechanical and rheological behaviour of particulate and granular materials. The simulation of particulate assemblies typically entails the use of Molecular Dynamics, where spheres are the predominant particle shape, and the Discrete Element Method (DEM). Clumps and clusters of spheres have been used to simulate non-spherical particles, primarily due to the simplicity of contact detection among spheres and their ability to approximate practically any irregular geometry. Various approaches have been proposed in the literature to generate such clumps or clusters, while open-source numerical codes applying these are scanty. The CLUMP code, proposed in this paper, provides a unified framework, where a parti...
Conventional simulations of dense particle flows in complex geometries usually involve the use of gl...
AbstractMeshless particle methods, a group of simulation approaches that gains attention in the rece...
This dissertation explores the use of packings of frictionless hard particles as models of the micro...
AbstractGranular materials are ubiquitous in nature and important in various applications such as ro...
International audienceLarge-scale numerical simulation using the Discrete Element Method (DEM) contr...
The mechanical and rheological behaviour of particulate and granular assemblies is significantly inf...
This paper presents a novel open-source discrete element code, SudoDEM, for efficient modeling of bo...
\u3cp\u3eA novel granular discrete element method (DEM) is introduced to simulate mixtures of partic...
<p>A novel granular discrete element method (DEM) is introduced to simulate mixtures of particles of...
In many dry granular and suspension flow configurations, particles can be highly non-spherical. It i...
A novel granular discrete element method (DEM) is introduced to simulate mixtures of particles of an...
One of the most challenging problems in the realistic modeling of granular materials is how to captu...
The representation of particles of complex shapes is one of the key challenges of numerical simulati...
International audienceWe suggest a novel variant of Discrete Element Method (DEM) to simulate the fl...
DEM simulations are originally made for spherical particles only. But most of real particles are any...
Conventional simulations of dense particle flows in complex geometries usually involve the use of gl...
AbstractMeshless particle methods, a group of simulation approaches that gains attention in the rece...
This dissertation explores the use of packings of frictionless hard particles as models of the micro...
AbstractGranular materials are ubiquitous in nature and important in various applications such as ro...
International audienceLarge-scale numerical simulation using the Discrete Element Method (DEM) contr...
The mechanical and rheological behaviour of particulate and granular assemblies is significantly inf...
This paper presents a novel open-source discrete element code, SudoDEM, for efficient modeling of bo...
\u3cp\u3eA novel granular discrete element method (DEM) is introduced to simulate mixtures of partic...
<p>A novel granular discrete element method (DEM) is introduced to simulate mixtures of particles of...
In many dry granular and suspension flow configurations, particles can be highly non-spherical. It i...
A novel granular discrete element method (DEM) is introduced to simulate mixtures of particles of an...
One of the most challenging problems in the realistic modeling of granular materials is how to captu...
The representation of particles of complex shapes is one of the key challenges of numerical simulati...
International audienceWe suggest a novel variant of Discrete Element Method (DEM) to simulate the fl...
DEM simulations are originally made for spherical particles only. But most of real particles are any...
Conventional simulations of dense particle flows in complex geometries usually involve the use of gl...
AbstractMeshless particle methods, a group of simulation approaches that gains attention in the rece...
This dissertation explores the use of packings of frictionless hard particles as models of the micro...