The distinct element method (DEM) is an approach to modelling and simulation well suited to the study of discontinuous phenomena. By tracking each element individually and dealing explicitly with every interaction among the elements, the DEM allows one to deduce statistical behaviour of the assembly. Realistic simulation of granular materials has largely benefited from this relatively recent approach. In particular, it is now possible to address specific phenomena such as arching effects, flows and packings in three dimensions and to make them observable, which is impossible or at least extremely complicated to achieve with physical experiments. Two major issues arise in the context of DEM: efficient detection of the interactions between th...
AbstractGranular materials are ubiquitous in nature and important in various applications such as ro...
A novel granular discrete element method (DEM) is introduced to simulate mixtures of particles of an...
This article presents a new force model for performing quantitative simulations of dense granular ma...
Granular materials are omnipresent in many fields ranging from civil engineering to food, mining and...
The distinct element method used to simulate behavior of granular media intrinsically needs a lot of...
International audienceWe suggest a novel variant of Discrete Element Method (DEM) to simulate the fl...
This book is devoted to the Discrete Element Method (DEM) technique, a discontinuum modelling approa...
Granular material is pervasive in our environment, and of significant importance in a number of scie...
The distinct element method was originally designed to handle spherical particles. Here, this method...
Many applications of the Discrete Element Method (DEM) require a grain description which accounts fo...
The Discrete Element Method (DEM) is a commonly used tool for simulating particulate behaviours over...
Discrete element methods (DEMs) are a family of related numerical procedures for solving problems th...
In many dry granular and suspension flow configurations, particles can be highly non-spherical. It i...
International audienceThe discrete elements method (DEM) has been widely used in the past decade to ...
This article presents a new force model for performing quantitative simulations of dense granular ma...
AbstractGranular materials are ubiquitous in nature and important in various applications such as ro...
A novel granular discrete element method (DEM) is introduced to simulate mixtures of particles of an...
This article presents a new force model for performing quantitative simulations of dense granular ma...
Granular materials are omnipresent in many fields ranging from civil engineering to food, mining and...
The distinct element method used to simulate behavior of granular media intrinsically needs a lot of...
International audienceWe suggest a novel variant of Discrete Element Method (DEM) to simulate the fl...
This book is devoted to the Discrete Element Method (DEM) technique, a discontinuum modelling approa...
Granular material is pervasive in our environment, and of significant importance in a number of scie...
The distinct element method was originally designed to handle spherical particles. Here, this method...
Many applications of the Discrete Element Method (DEM) require a grain description which accounts fo...
The Discrete Element Method (DEM) is a commonly used tool for simulating particulate behaviours over...
Discrete element methods (DEMs) are a family of related numerical procedures for solving problems th...
In many dry granular and suspension flow configurations, particles can be highly non-spherical. It i...
International audienceThe discrete elements method (DEM) has been widely used in the past decade to ...
This article presents a new force model for performing quantitative simulations of dense granular ma...
AbstractGranular materials are ubiquitous in nature and important in various applications such as ro...
A novel granular discrete element method (DEM) is introduced to simulate mixtures of particles of an...
This article presents a new force model for performing quantitative simulations of dense granular ma...