SIMULATION OF FRACTURE USING A MESH-DEPENDENT FRACTURE CRITERION IN THE DISCRETE ELEMENT METHOD

Andrey Dimaki; Evgeny Shilko; Sergey Psakhie; Valentin Popov

doi:10.22190/FUME171229010D

Facta Universitatis. Series: Mechanical Engineering (Feb 2018)

SIMULATION OF FRACTURE USING A MESH-DEPENDENT FRACTURE CRITERION IN THE DISCRETE ELEMENT METHOD

Andrey Dimaki,
Evgeny Shilko,
Sergey Psakhie,
Valentin Popov

Affiliations

Andrey Dimaki: Institute of Strength Physics and Materials Science, Russian Academy of Sciences
Evgeny Shilko: Institute of Strength Physics and Materials Science, Russian Academy of Sciences
Sergey Psakhie: Institute of Strength Physics and Materials Science, Russian Academy of Sciences
Valentin Popov

DOI: https://doi.org/10.22190/FUME171229010D
Journal volume & issue: Vol. 16, no. 1
pp. 41 – 50

Abstract

Read online

Recently, Pohrt and Popov have shown that for simulation of adhesive contacts a mesh dependent detachment criterion must be used to obtain the mesh-independent macroscopic behavior of the system. The same principle should be also applicable for the simulation of fracture processes in any method using finite discretization. In particular, in the Discrete Element Methods (DEM) the detachment criterion of particles should depend on the particle size. In the present paper, we analyze how the mesh dependent detachment criterion has to be introduced to guarantee the macroscopic invariance of mechanical behavior of a material. We find that it is possible to formulate the criterion which describes fracture both in tensile and shear experiments correctly.

Published in Facta Universitatis. Series: Mechanical Engineering

ISSN: 0354-2025 (Print); 2335-0164 (Online)
Publisher: University of Niš
Country of publisher: Serbia
LCC subjects: Technology: Mechanical engineering and machinery
Website: http://casopisi.junis.ni.ac.rs/index.php/FUMechEng

About the journal