Experimental study on crack evolution and damage characteristics of water bearing sandstone under cyclic loading

doi:10.16285/j.rsm.2021.6627

Rock and Soil Mechanics ›› 2022, Vol. 43 ›› Issue (7): 1791-1802.doi: 10.16285/j.rsm.2021.6627

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Experimental study on crack evolution and damage characteristics of water bearing sandstone under cyclic loading

YANG Ke^{1, 2, 3}, ZHANG Zhai-nan^{1, 3}, CHI Xiao-lou^{1, 3}, LÜ Xin^{1, 3}, WEI Zhen^{1, 3}, LIU Wen-jie^{1, 3}

1. State Key Laboratory of Mining Response and Disaster Prevention and Control in Deep Coal Mines, Anhui University of Science and Technology, Huainan, Anhui 232001, China 2. Institute of Energy, Hefei Comprehensive National Science Center, Hefei, Anhui 230031, China 3. Key Laboratory of Mining Coal Safety and Efficiently Constructed by Anhui Province and Ministry of Education, Anhui University of Science and Technology, Huainan, Anhui 232001, China

Online:2022-07-20 Published:2022-09-20
Contact: ZHANG Zhai-nan, male, born in 1995, PhD candidate, research interests: development and utilization of underground space resources. E-mail: 2392614146@qq.com E-mail:yksp2003@163.com
About author:YANG Ke, male, born in 1979, PhD, Professor, PhD supervisor, research interests: multi-field evolution and disaster prevention and control, safe, intelligent, and precise coal mining, coal-based solid waste and green filling mining, development and utilization of closed or abandoned mine resources.
Supported by:
the Regional Innovation and Development Joint Fund of National Natural Science Foundation of China (U21A20110) and the Major Special Project of Science and Technology in Shanxi Province (20191101016).

Abstract

Abstract: Based on the engineering background that rock masses of underground reservoirs in mines are frequently disturbed by cyclic loads such as mine earthquake and mining stress, uniaxial compression and cyclic loading tests for sandstones with different water contents were carried out in laboratory. The crack propagation and failure laws of sandstones with different water contents were revealed by digital speckle technique. Based on scanning electron microscopic (SEM) analysis, the micro deterioration mechanism of sandstones with different water contents under cyclic loading was obtained. The test results show that the peak strength of sandstone decreases gradually with the increase of water content under both uniaxial compression and cyclic loading conditions. The peak axial strain variation of dry sandstone experiences four stages of initial deformation, constant velocity deformation, accelerated deformation, and instability failure, and that of the water-bearing sandstone experiences three stages of initial deformation, constant velocity deformation, and instability failure. With the increase of water content, the peak axial strain in the corresponding stage gradually decreases. It is verified by the deformation rate analysis method that water has no effect on the deformation memory characteristics of sandstone. Under uniaxial cyclic loading condition, the failure mode of sandstone gradually transits from tension−splitting failure at dryness to tension−shear mixed failure, and presents a single shear failure at saturation. SEM results show that with the increase of water content, the fracture structure plane gradually transits from smooth structure, round structure, and sheet structure to completely broken structure. With the increase of water content, the absolute damage parameter increases, which reflects the positive correlation of water−rock coupling damage, and the cumulative damage parameter larger at the same cycle accumulates faster.

Key words: uniaxial cyclic loading, water bearing sandstone, digital speckle, crack propagation, damage characteristics

YANG Ke, ZHANG Zhai-nan, CHI Xiao-lou, LÜ Xin, WEI Zhen, LIU Wen-jie, . Experimental study on crack evolution and damage characteristics of water bearing sandstone under cyclic loading[J]. Rock and Soil Mechanics, 2022, 43(7): 1791-1802.

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Experimental study on crack evolution and damage characteristics of water bearing sandstone under cyclic loading

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