Crack initiation, propagation and coalescence in rock-like material containing two flaws : a numerical study based on bonded-particle model approach
Cracking and coalescence behavior in a rectangular rock-like specimen containing two parallel (stepped and coplanar) pre-existing open flaws under uniaxial compression load has been numerically studied by a parallel bonded-particle model, which is a type of bonded-particle model. Crack initiation an...
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sg-ntu-dr.10356-980432020-03-07T11:43:44Z Crack initiation, propagation and coalescence in rock-like material containing two flaws : a numerical study based on bonded-particle model approach Zhang, Xiao-Ping Wong, Louis Ngai Yuen School of Civil and Environmental Engineering DRNTU::Engineering::Environmental engineering Cracking and coalescence behavior in a rectangular rock-like specimen containing two parallel (stepped and coplanar) pre-existing open flaws under uniaxial compression load has been numerically studied by a parallel bonded-particle model, which is a type of bonded-particle model. Crack initiation and propagation from two flaws replicate most of the phenomena observed in prior physical experiments, such as the type (tensile/shear) and the initiation stress of the first crack, as well as the coalescence pattern. Eight crack coalescence categories representing different crack types and trajectories are identified. New coalescence categories namely “New 1” and “New 2”, which are first observed in the present simulation, are incorporated into categories 3 and 4, and category 5 previously proposed by the MIT Rock Mechanics Research Group, respectively. The flaw inclination angle (β), the ligament length (L) (spacing between two flaws) and the bridging angle (α) (inclination of a line linking up the inner flaw tips, between two flaws) have different effects on the coalescence patterns, coalescence stresses (before, at or post the peak stress) as well as peak strength of specimens. Some insights on the coalescence processes, such as the initiation of cracks in the intact part of specimens at a distance away from the flaw tips, and coalescence due to the development and linkage of a number of steeply inclined to vertical macro-tensile cracks are revealed by the present numerical study. 2013-07-25T03:48:44Z 2019-12-06T19:49:58Z 2013-07-25T03:48:44Z 2019-12-06T19:49:58Z 2012 2012 Journal Article Zhang, X.-P., & Wong, L. N. Y. (2012). Crack Initiation, Propagation and Coalescence in Rock-Like Material Containing Two Flaws: a Numerical Study Based on Bonded-Particle Model Approach. Rock Mechanics and Rock Engineering. 0723-2632 https://hdl.handle.net/10356/98043 http://hdl.handle.net/10220/12182 10.1007/s00603-012-0323-1 en Rock mechanics and rock engineering © 2012 Springer-Verlag Wien. |
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DRNTU::Engineering::Environmental engineering Zhang, Xiao-Ping Wong, Louis Ngai Yuen Crack initiation, propagation and coalescence in rock-like material containing two flaws : a numerical study based on bonded-particle model approach |
| description |
Cracking and coalescence behavior in a rectangular rock-like specimen containing two parallel (stepped and coplanar) pre-existing open flaws under uniaxial compression load has been numerically studied by a parallel bonded-particle model, which is a type of bonded-particle model. Crack initiation and propagation from two flaws replicate most of the phenomena observed in prior physical experiments, such as the type (tensile/shear) and the initiation stress of the first crack, as well as the coalescence pattern. Eight crack coalescence categories representing different crack types and trajectories are identified. New coalescence categories namely “New 1” and “New 2”, which are first observed in the present simulation, are incorporated into categories 3 and 4, and category 5 previously proposed by the MIT Rock Mechanics Research Group, respectively. The flaw inclination angle (β), the ligament length (L) (spacing between two flaws) and the bridging angle (α) (inclination of a line linking up the inner flaw tips, between two flaws) have different effects on the coalescence patterns, coalescence stresses (before, at or post the peak stress) as well as peak strength of specimens. Some insights on the coalescence processes, such as the initiation of cracks in the intact part of specimens at a distance away from the flaw tips, and coalescence due to the development and linkage of a number of steeply inclined to vertical macro-tensile cracks are revealed by the present numerical study. |
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School of Civil and Environmental Engineering |
| author_facet |
School of Civil and Environmental Engineering Zhang, Xiao-Ping Wong, Louis Ngai Yuen |
| format |
Article |
| author |
Zhang, Xiao-Ping Wong, Louis Ngai Yuen |
| author_sort |
Zhang, Xiao-Ping |
| title |
Crack initiation, propagation and coalescence in rock-like material containing two flaws : a numerical study based on bonded-particle model approach |
| title_short |
Crack initiation, propagation and coalescence in rock-like material containing two flaws : a numerical study based on bonded-particle model approach |
| title_full |
Crack initiation, propagation and coalescence in rock-like material containing two flaws : a numerical study based on bonded-particle model approach |
| title_fullStr |
Crack initiation, propagation and coalescence in rock-like material containing two flaws : a numerical study based on bonded-particle model approach |
| title_full_unstemmed |
Crack initiation, propagation and coalescence in rock-like material containing two flaws : a numerical study based on bonded-particle model approach |
| title_sort |
crack initiation, propagation and coalescence in rock-like material containing two flaws : a numerical study based on bonded-particle model approach |
| publishDate |
2013 |
| url |
https://hdl.handle.net/10356/98043 http://hdl.handle.net/10220/12182 |
| _version_ |
1681036926207918080 |