Rock and Soil Mechanics ›› 2025, Vol. 46 ›› Issue (1): 199-212.doi: 10.16285/j.rsm.2024.0380

• Fundamental Theory and Experimental Research • Previous Articles     Next Articles

Mechanical response characteristics and seepage evolution patbern of sandstone with an inclined single fracture under cyclic loading

TANG Jin-zhou1, 2, TANG Wen-hao1, 2, YANG Ke1, 2, 3, ZHAO Yan-lin4, LIU Qin-jie1, 2, 3, DUAN Min-ke1, 2, TAN Zhe4   

  1. 1.School of Mining Engineering, Anhui University of Science and Technology, Huainan, Anhui 232001, China; 2. Anhui Engineering Research Center of Exploitation and Utilization of Closed/Abandoned Mine Resources, Anhui University of Science and Technology, Huainan, Anhui 232001, China; 3. Institute of Energy, Hefei Comprehensive National Science Center, Hefei, Anhui 230031, China; 4. School of Resource Environment and Safety Engineering, Hunan University of Science and Technology, Xiangtan, Hunan 411201, China
  • Received:2024-03-29 Accepted:2024-08-08 Online:2025-01-10 Published:2025-01-04
  • Supported by:
    This work was supported by the Natural Science Research Project of Anhui Educational Committee (2022AH050811), the Scientific Research Foundation for High-level Talents of Anhui University of Science and Technology (2021yjrc30) and University-level Key Projects of Anhui University of Science and Technology (QNZD2021-06).

Abstract:

To investigate the impact of cyclic loading on the mechanical damage characteristics and seepage evolution of fractured rock mass, the stress-seepage coupling tests were conducted on sandstone samples containing an inclined rough single fracture under conditions of axial and pore pressures low frequency repeatedly loading and unloading. The results indicate that under stress, rock samples exhibit relative slip along pre-existing fractures, with surface protrusions undergoing wear and shear. These protrusions cause a slight stress drop during loading, leading to flow rate fluctuations during compression. For samples with inclined fractures, strength is mainly determined by slip along pre-existing fractures and pore pressure magnitude. During cyclic loading and unloading under axial compression, fractured rock mass undergoes progressive damage and deterioration with increasing cycles. This reduces the samples’ ability to resist deformation. Additionally, samples exhibit a nonlinear decrease in elastic modulus and a nonlinear increase in Poisson’s ratio with increasing cycles. Pore pressure cycling shortens the decay creep stage and reduces strain rates in the stable creep stage. The flow rate dynamically evolves during cyclic loading and unloading. Initially, the flow rate decreases due to fracture closure under stress. Subsequently, it decreases and then increases with cyclic axial stress. The grayscale threshold segmentation method effectively separates connected and contact zones of fractures. It shows that final flow increases exponentially with increases in fractal dimension D and connection ratio Φ.

Key words: fractured rock mass, cyclic loading and unloading, mechanical properties, seepage, morphological characterization

CLC Number: 

  • TD 435
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