Energy evolution and failure characteristics of single fissure carbonaceous shale under drying−wetting cycles

doi:10.16285/j.rsm.2021.6657

Rock and Soil Mechanics ›› 2022, Vol. 43 ›› Issue (7): 1761-1771.doi: 10.16285/j.rsm.2021.6657

Energy evolution and failure characteristics of single fissure carbonaceous shale under drying−wetting cycles

LIU Xin-xi¹, LI Yu¹, FAN Zi-jian¹, LI Sheng-nan², WANG Wei-wei¹, DONG Peng¹

1. School of Civil Engineering, Changsha University of Science and Technology, Changsha, Hunan 410114, China 2. School of Architectural Engineering, Hunan Institute of Engineering, Xiangtan, Hunan 411101, China

Online:2022-07-20 Published:2022-09-20
Contact: LI Yu, male, born in 1990, PhD candidate, mainly engaged in geotechnical stability evaluation and control. E-mail: 1986740197@qq.com E-mail:liuxinxi1963@126.com
About author: LIU Xin-xi, male, born in 1963, PhD, professor, PhD supervisor, mainly engaged in the teaching and research of rock and soil stability.
Supported by:
the National Natural Science Foundation of China (51674041, 52108405) and the Research and Innovation Program for Postgraduates in Hunan Province (SJCX202025).

Abstract

Abstract: In order to investigate the energy evolution and failure characteristics of carbonaceous shale containing single fissure under drying−wetting cycles, the intact carbonaceous shale samples and the carbonaceous shale samples with fissure angles of 30°, 45° and 60° were prepared. MTS815 rock mechanics test system was used to conduct triaxial compression tests under different drying−wetting cycles. The influence of drying−wetting cycles on the strength, failure mode and energy evolution of single fissure carbonaceous shale were studied. The results show that the elastic energy and dissipated energy at crack initiation stress, damage stress and peak stress present exponential relationships with drying-wetting cycles. The elastic energy and dissipated energy at crack initiation stress and dissipated energy at damage stress are less sensitive to drying−wetting cycle, while the sensitivities of elastic energy at damage stress, and elastic energy and dissipated energy at peak stress are relatively high. The failure mode of carbonaceous shale is dominated by drying−wetting cycle and fissure angle, in which the drying-wetting cycle is the main controlling factor, and the fissure angle is the secondary controlling factor. It is found that tensile shear failure occurs in dry rock sample with fissure angle of 30°, while the dry rock sample with fissure angle of 45°and 60° are subjected to shear failure. With the increase of the number of drying−wetting cycles, the macroscopic length of the main crack increases, the density of secondary cracks increases, and the failure mode transforms to shear-tension composite failure. With the increase of the number of drying−wetting cycles, the energy storage level at crack initiation stress Kci and the energy storage level at damage stress Kcd increase gradually. The higher the energy storage level at crack initiation and damage stress, the more likely the crack initiation and rock damage occur. Kcd can be used as a warning indicator of rock failure. A larger Kcd indicates that the rock is more vulnerable to failure.

Key words: triaxial compression, single fissure carbonaceous shale, drying?wetting cycle, energy evolution, failure characteristics

LIU Xin-xi, LI Yu, FAN Zi-jian, LI Sheng-nan, WANG Wei-wei, DONG Peng, . Energy evolution and failure characteristics of single fissure carbonaceous shale under drying−wetting cycles[J]. Rock and Soil Mechanics, 2022, 43(7): 1761-1771.

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Energy evolution and failure characteristics of single fissure carbonaceous shale under drying−wetting cycles

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