Physics – Condensed Matter – Materials Science
Scientific paper
2008-04-03
Physics
Condensed Matter
Materials Science
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Scientific paper
The most difficult aspect of the realistic modeling of granular materials is how to capture the real shape of the particles. Here we present a method to simulate granular materials with complex-shaped particles. The particle shape is represented by the classical concept of a Minkowski sum, which permits the representation of complex shapes without the need to define the object as a composite of spherical or convex particles. A well defined interaction force between these bodies is derived. The algorithm for identification of neighbor particles reduces force calculations to O(N), where $N$ is the number of particles. The algorithm is much more efficient, accurate and easier to implement than other models. We investigate the existence of a statistical equilibrium in granular systems with circular non-spherical particles in the collisional. regime. We also investigate the limit state of dissipative granular materials using biaxial test simulations. The results are consistent with the classical assumption of the statistical mechanics for non-dissipative systems, and the critical state theory of soils mechanics for dissipative granular materials.
Alonso-Marroquin Fernando
Wang Yucang
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