DEM simulation of ballast oedometric test

DEM simulation of ballast oedometric test

Paper in proceedings (conference paper)

The granular nature of the railway ballast in connection with fast dynamic loading makes it an ideal application of the Discrete Element Method (DEM). The contribution employs DEM to simulate the ballast behavior in large oedometric test. Ballast grains are represented by convex polyhedral particles with shape randomly generated via Voronoi tessellation. A novel algorithm to compute repulsive contact force based on intersecting volume of polyhedrons is presented. Crushing of grains is included via splitting the particles into smaller polyhedrons when some stress-based criterion is fulfilled.

The granular nature of the railway ballast in connection with fast dynamic loading makes it an ideal application of the Discrete Element Method (DEM). The contribution employs DEM to simulate the ballast behavior in large oedometric test. Ballast grains are represented by convex polyhedral particles with shape randomly generated via Voronoi tessellation. A novel algorithm to compute repulsive contact force based on intersecting volume of polyhedrons is presented. Crushing of grains is included via splitting the particles into smaller polyhedrons when some stress-based criterion is fulfilled.

Discrete Element Method, polyhedrons, crushing, Voronoi tessellation, ballast

Discrete Element Method, polyhedrons, crushing, Voronoi tessellation, ballast

ELIÁŠ, J.

2015

12.05.2014

Svratka, Česká republika

978-80-214-4871-1

Engineering Mechnaics 2014

1805-8248

Engineering Mechanics

Czech Republic

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