Discrete Element Method (DEM) is a powerful tool for modelling the macroscopic and internal mechanics of particulate assemblies under mechanical loading. However, existing versions of DEM codes normally account for the inter-particle forces only when contiguous particles touch or overlap. In this paper, we examine the effects of long-range inter-particle forces acting between individual particles using DEM. Simulations were performed incorporating the contribution of repulsive force acting between particles even when the particles do not touch each other. When the particles touch/overlap with neighbouring particles, then inter-particle interactions are governed by a conventional linear spring-dashpot model, added to this is the contributi...
One challenge of todays research on particle systems is the realistic simulation of granular materia...
Aiming at predicting what happens in reality inside mills, the contact parameters of iron ore partic...
A constitutive theory is developed for granular material undergoing arbitrarily large deformations. ...
This book is devoted to the Discrete Element Method (DEM) technique, a discontinuum modelling approa...
Computer simulation using the Discrete Element Method (DEM) has emerged as a powerful tool in studyi...
Computer simulation using the Discrete Element Method (DEM) has emerged as a powerful tool in studyi...
This article presents a new force model for performing quantitative simulations of dense granular ma...
The scaled-up particle model, which is also commonly known as the coarse grain model or discrete par...
This article presents a new force model for performing quantitative simulations of dense granular ma...
DEM is a useful instrument to successfully design, optimise or simply analyse systems a...
The application of discrete element modelling (DEM) to cohesive fine powders in industrial processes...
Particle shape, as one of the most important physical ingredients of granular materials, can greatly...
One challenge of today's research is the realistic simulation of granular materials, like sand or po...
The computation time of Discrete Element Method (DEM) simulations increases exponentially when parti...
The attachment of autoadhesive fine particles onto a large carrier particle in a vibrating container...
One challenge of todays research on particle systems is the realistic simulation of granular materia...
Aiming at predicting what happens in reality inside mills, the contact parameters of iron ore partic...
A constitutive theory is developed for granular material undergoing arbitrarily large deformations. ...
This book is devoted to the Discrete Element Method (DEM) technique, a discontinuum modelling approa...
Computer simulation using the Discrete Element Method (DEM) has emerged as a powerful tool in studyi...
Computer simulation using the Discrete Element Method (DEM) has emerged as a powerful tool in studyi...
This article presents a new force model for performing quantitative simulations of dense granular ma...
The scaled-up particle model, which is also commonly known as the coarse grain model or discrete par...
This article presents a new force model for performing quantitative simulations of dense granular ma...
DEM is a useful instrument to successfully design, optimise or simply analyse systems a...
The application of discrete element modelling (DEM) to cohesive fine powders in industrial processes...
Particle shape, as one of the most important physical ingredients of granular materials, can greatly...
One challenge of today's research is the realistic simulation of granular materials, like sand or po...
The computation time of Discrete Element Method (DEM) simulations increases exponentially when parti...
The attachment of autoadhesive fine particles onto a large carrier particle in a vibrating container...
One challenge of todays research on particle systems is the realistic simulation of granular materia...
Aiming at predicting what happens in reality inside mills, the contact parameters of iron ore partic...
A constitutive theory is developed for granular material undergoing arbitrarily large deformations. ...