Add to ORKGThe simulation of large numbers of rigid bodies of non-analytical shapes or vastly varying sizes which collide with each other is computationally challenging. The fundamental problem is the identification of all contact points between all particles at every time step. In the Discrete Element Method (DEM), this is particularly difficult for particles of arbitrary geometry that exhibit sharp features (e.g. rock granulates). While most codes avoid non-spherical or non-analytical shapes due to the computational complexity, we introduce an iterative-based contact detection method for triangulated geometries. The new method is an improvement over a naive brute force approach which checks all possible geometric constellations of contact and thus e...
Granular materials are omnipresent in many fields ranging from civil engineering to food, mining and...
Purpose - The paper aims to introduce an efficient contact detection algorithm for smooth convex par...
The macroscopic behaviour of granular matter in contrast to fluids and solids is often insufficientl...
We present a novel DEM (discrete element method) code with explicit time stepping. DEM codes simulat...
The simulation of vast numbers of rigid bodies of non‐analytical shapes and of tremendously differen...
In numerous industrial applications there is the need to realistically model granular material. For ...
The final publication is available at Springer via http://dx.doi.org/10.1007/s40571-016-0109-4In thi...
Simulations of many rigid bodies colliding with each other sometimes yield particularly interesting ...
Many particle simulations today rely on spherical or analytical particle shape descriptions. They fi...
In this work, we present a new methodology for the treatment of the contact interaction between rigi...
The distinct element method was originally designed to handle spherical particles. Here, this method...
We present a version of the Discrete Element Method considering the particles as rigid polyhedra. Th...
The discrete element method (DEM) is a numerical simulation approach for particulate systems propose...
A new contact detection algorithm between three-dimensional non-spherical particles in the discrete ...
Houlsby (2009) presented the concept of "potential particles", a method for modelling non-circular p...
Granular materials are omnipresent in many fields ranging from civil engineering to food, mining and...
Purpose - The paper aims to introduce an efficient contact detection algorithm for smooth convex par...
The macroscopic behaviour of granular matter in contrast to fluids and solids is often insufficientl...
We present a novel DEM (discrete element method) code with explicit time stepping. DEM codes simulat...
The simulation of vast numbers of rigid bodies of non‐analytical shapes and of tremendously differen...
In numerous industrial applications there is the need to realistically model granular material. For ...
The final publication is available at Springer via http://dx.doi.org/10.1007/s40571-016-0109-4In thi...
Simulations of many rigid bodies colliding with each other sometimes yield particularly interesting ...
Many particle simulations today rely on spherical or analytical particle shape descriptions. They fi...
In this work, we present a new methodology for the treatment of the contact interaction between rigi...
The distinct element method was originally designed to handle spherical particles. Here, this method...
We present a version of the Discrete Element Method considering the particles as rigid polyhedra. Th...
The discrete element method (DEM) is a numerical simulation approach for particulate systems propose...
A new contact detection algorithm between three-dimensional non-spherical particles in the discrete ...
Houlsby (2009) presented the concept of "potential particles", a method for modelling non-circular p...
Granular materials are omnipresent in many fields ranging from civil engineering to food, mining and...
Purpose - The paper aims to introduce an efficient contact detection algorithm for smooth convex par...
The macroscopic behaviour of granular matter in contrast to fluids and solids is often insufficientl...