A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Failure of Crushable Grains Using a Three-Dimensional Discrete Element Model
Abstract A three-dimensional grain model based on the concept of particles assembly using cohesive bonds is presented. A script is developed to generate polyhedral grains, by assembling tetrahedral particles using cohesive bonds. A series of single grain crushing simulations is performed, and the effect of the intra-granular cohesion on the grain’s strength is studied. Oedometric compression tests are simulated. The effect of grain breakage on the macroscopical behaviour is evaluated.
Failure of Crushable Grains Using a Three-Dimensional Discrete Element Model
Abstract A three-dimensional grain model based on the concept of particles assembly using cohesive bonds is presented. A script is developed to generate polyhedral grains, by assembling tetrahedral particles using cohesive bonds. A series of single grain crushing simulations is performed, and the effect of the intra-granular cohesion on the grain’s strength is studied. Oedometric compression tests are simulated. The effect of grain breakage on the macroscopical behaviour is evaluated.
Failure of Crushable Grains Using a Three-Dimensional Discrete Element Model
Nader, François (author) / Silvani, Claire (author) / Djeran-Maigre, Irini (author)
2017-01-01
7 pages
Article/Chapter (Book)
Electronic Resource
English
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