Scientific Reports (Nov 2022)

Study on crack evolutional behavior of rocks in triaxial compression based on colony growth dynamics model

  • Naifu Deng,
  • Lan Qiao,
  • Qingwen Li,
  • Jiawang Hao,
  • Mengxi Wei,
  • Qinglong Zhang

DOI
https://doi.org/10.1038/s41598-022-23177-x
Journal volume & issue
Vol. 12, no. 1
pp. 1 – 23

Abstract

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Abstract The crack propagation behavior of rock during compression involves complex mechanisms. Describing the growth behavior of a large number of cracks with conventional mechanical models is a major challenge. Therefore, in this work, we propose a new method to describe crack growth behavior by considering crack bodies as free voxels that can expand and coalesce within a rock sample according to certain rules. Specifically, we first propose a crack growth model that quantitatively describes the crack growth ratio and crack growth rate, which are integrally related to the loading rate, internal friction angle, cohesion, initial porosity, and confining stress. Second, to avoid the complex analytical process of the traditional mechanical model in solving the propagation directions of multiple cracks, we introduce a method for determining the crack growth directions of shearing failure based on the colony growth assumption. This method defines the crack propagation direction as a synthetic vector of the inertial direction, the attractive direction, the Coulomb direction, and the edge direction. Moreover, a new mathematical description method of fracture energy and plastic energy is proposed to calculate the crack growth at each time step. The simulation results show that our crack growth model for shearing failure agrees well with the experimental results and explains the fracture behavior and transformation law of cracks to some extent.