4.5 Article

Experimental and numerical study on strength and deformation behaviors of sandstone with intersecting flaws

期刊

GEOMECHANICS AND ENGINEERING
卷 26, 期 6, 页码 565-579

出版社

TECHNO-PRESS
DOI: 10.12989/gae.2021.26.6.565

关键词

damage evolution; displacement field; intersecting flaws; PFC2D; sandstone; stress field

资金

  1. National Key R&D Program of China [2018YFC1504802]
  2. National Natural Science Foundation of China [41972266]
  3. Graduate Research and Innovation Foundation of Chongqing, China [CYS21029]
  4. Basic Research and Frontier Exploration Project of Chongqing in 2018 [cstc2018jcyjAX0453]

向作者/读者索取更多资源

The distribution pattern of flaws in rock significantly affects its mechanical behavior. This study investigated the cracking behavior of sandstone with intersecting flaws under uniaxial compression through laboratory tests and numerical simulation. The results showed that the intersecting angle of flaws influences the peak stress and average modulus of the rock, determining the location of main fracture surfaces.
The distribution pattern of flaws has a significant impact on the mechanical behavior of the rock. To understand the cracking mechanism of the rock with intersecting flaws, the cracking behavior of sandstone containing two intersecting flaws under uniaxial compression was investigated through laboratory tests and particle flow code (PFC2D). The strength and failure characteristics of sandstone with intersecting flaws were studied. Subsequently, the evolution of the stress fields and displacement fields were analyzed, and the cracking mechanism of intersecting flaws was discussed. The results showed that the peak stress and average modulus decrease with increasing intersecting angle alpha of intersecting flaws in both experiments and numerical simulation. The experimental peak stress shows an increasing tendency, while the experimental average modulus first increases and then decreases with increasing direction angle beta, which is slightly different from simulation results. The cracking mode of the intersecting flaws was determined by angles alpha and beta. Specifically, when alpha and beta were small, the main fracture surfaces formed at the inner and outer tips of one flaw. When alpha and beta were large, the main fracture surfaces formed at the outer tips of the two flaws. The variation in the high tensile stress zone with alpha and beta is the essential reason for the change in cracking modes with alpha and beta. In addition, a new type of displacement field (defined as DF_IV) related to crack initiation was found. In this type of displacement field, the displacement difference is the main cause of cracking.

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