Granular materials are omnipresent in many fields ranging from civil engineering to food, mining and pharmaceutical industries. Often considered a fourth state of matter, they exhibit specific phenomena such as segregation, arching effects, pattern formation, etc. Due to its potential capability of realistically rendering these behaviors, the Distinct Element Method (DEM) is a very enticing simulation technique. Indeed it makes it possible to analyze and observe phenomena that are barely if at all accessible experimentally. DEM works by tracking every particle in the system individually, maintaining for each a trajectory influenced by external factors such as gravitation or contacts with boundary objects and by the interactions with other g...
This article presents a new force model for performing quantitative simulations of dense granular ma...
This article presents a new force model for performing quantitative simulations of dense granular ma...
We present a version of the Discrete Element Method considering the particles as rigid polyhedra. Th...
The distinct element method (DEM) is an approach to modelling and simulation well suited to the stud...
The distinct element method was originally designed to handle spherical particles. Here, this method...
This thesis deals with the numerical modeling and simulation of granular media with large population...
International audienceWe suggest a novel variant of Discrete Element Method (DEM) to simulate the fl...
Many applications of the Discrete Element Method (DEM) require a grain description which accounts fo...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Civil and Environmental Engineering...
The distinct element method used to simulate behavior of granular media intrinsically needs a lot of...
Granular material is pervasive in our environment, and of significant importance in a number of scie...
Granular materials, such as sand and grains, are ubiquitous. Simulating the 3D dynamic motion of suc...
Predictive computational tools to study granular materials are important in fields ranging from the ...
A numerical model is presented which describes the evolution of a system containing a large number o...
One of the most challenging problems in the realistic modeling of granular materials is how to captu...
This article presents a new force model for performing quantitative simulations of dense granular ma...
This article presents a new force model for performing quantitative simulations of dense granular ma...
We present a version of the Discrete Element Method considering the particles as rigid polyhedra. Th...
The distinct element method (DEM) is an approach to modelling and simulation well suited to the stud...
The distinct element method was originally designed to handle spherical particles. Here, this method...
This thesis deals with the numerical modeling and simulation of granular media with large population...
International audienceWe suggest a novel variant of Discrete Element Method (DEM) to simulate the fl...
Many applications of the Discrete Element Method (DEM) require a grain description which accounts fo...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Civil and Environmental Engineering...
The distinct element method used to simulate behavior of granular media intrinsically needs a lot of...
Granular material is pervasive in our environment, and of significant importance in a number of scie...
Granular materials, such as sand and grains, are ubiquitous. Simulating the 3D dynamic motion of suc...
Predictive computational tools to study granular materials are important in fields ranging from the ...
A numerical model is presented which describes the evolution of a system containing a large number o...
One of the most challenging problems in the realistic modeling of granular materials is how to captu...
This article presents a new force model for performing quantitative simulations of dense granular ma...
This article presents a new force model for performing quantitative simulations of dense granular ma...
We present a version of the Discrete Element Method considering the particles as rigid polyhedra. Th...