Although the availability of discrete-element method (DEM) codes has improved, the need still exists to solve simple verification problems to obtain an understanding of these codes. Different DEM codes may have subtle differences in the manner in which the method is implemented, and the significance of these differences may be problem dependent. This paper investigates a series of simple, one and two-particle contact problems. These problems, which employ various types of damping, are shown to be equivalent to classical one-dimensional vibration problems. The solutions are discussed in the context of the DEM, and results from the DEM are shown to compare very well with the classical solutions. It is demonstrated that results from a well-known commercial two-dimensional code (PFC2D) and the open source three-dimensional code (YADE) yield identical solutions to these problems provided the problem solution process is manipulated properly. A discussion of the differences in how gravity and damping are impleme...
[1]
P. Cundall,et al.
A discrete numerical model for granular assemblies
,
1979
.
[2]
R. Cook,et al.
Concepts and Applications of Finite Element Analysis
,
1974
.
[3]
A. Anandarajah,et al.
Three-Dimensional Discrete Element Method of Analysis of Clays
,
2003
.
[4]
Keith Richards,et al.
Discrete–element modelling: methods and applications in the environmental sciences
,
2004,
Philosophical Transactions of the Royal Society of London. Series A: Mathematical, Physical and Engineering Sciences.
[5]
Richard P. Jensen,et al.
Effect of Particle Shape on Interface Behavior of DEM-Simulated Granular Materials
,
2001
.
[6]
F. Donze,et al.
Identification and Validation of a Discrete Element Model for Concrete
,
2004
.