Crack coalescence morphology in rock-like material under compression

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This paper uses peridynamic simulations to determine the extent of coalescing damage and identify the underlying causes. The basic crack types and crack coalescence patterns in specimens with a flaw pair under uniaxial compression are systematically investigated. Various crack types including horsetail cracks, anti-wing cracks, and tensile wing cracks are successfully observed and the coalescence sequences are identified. By varying angles, six crack coalescence categories with respect to the overlapping ratios provide insightful information of different crack growths and indicate various cracking modes underlying various coalescence patterns. The arrangement of the flaw pair strongly influences the crack initiation position and trajectories, allowing for different coalescence morphologies. Coalescence formed by two internal tensile wing cracks, or transfixion, shows unbroken crack segments with a further loading, along with growing shear cracks until failure. In contrast, after the coalescence is formed through two horsetail cracks, the interior of the rhombic shape gets deformed with further loading. The peridynamic code adopted in this research can provide realistic simulation results and help researchers to conduct expanded tests as well as to enhance understanding the fracture of rock-like material.
Publisher
SPRINGER
Issue Date
2017-01
Language
English
Article Type
Article
Keywords

NUMERICAL MANIFOLD METHOD; FINITE-ELEMENT-METHOD; UNIAXIAL COMPRESSION; DISCRETIZED PERIDYNAMICS; PROPAGATION MECHANISM; BRITTLE; INITIATION; FLAWS; MODEL; SPECIMENS

Citation

INTERNATIONAL JOURNAL OF FRACTURE, v.203, pp.211 - 236

ISSN
0376-9429
DOI
10.1007/s10704-016-0138-2
URI
http://hdl.handle.net/10203/220942
Appears in Collection
CE-Journal Papers(저널논문)
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