- Title
- Investigation of the Fracture Characteristics of Rock Mass After Thermal-Mechanical Damage Coupling
- Creator
- Sun, Bing; Yang, Peng; Zhang, Zhiheng; Wang, Shanyong; Zeng, Sheng
- Relation
- Rock Mechanics and Rock Engineering Vol. 57, Issue 7, p. 4707-4727
- Publisher Link
- http://dx.doi.org/10.1007/s00603-024-03781-1
- Publisher
- Springer
- Resource Type
- journal article
- Date
- 2024
- Description
- Thermal–mechanical damage is an important problem threatening the safety of deep rock engineering. In this paper, the effects of coupling damage on the deformation and failure characteristics of rock mass were studied via cyclic loading damage, thermal damage and uniaxial compression acoustic emission (AE) tests, and the microscopic fracture process of the damaged rock mass was numerically simulated. Results showed that during heat treatment, the colour of the sample changed significantly, the mass, the P-wave velocity and the number of mineral species decreased. The peak strength and elastic modulus reach their maximum values at 600 °C and 300 °C, respectively, exhibiting a trend of initial increase and subsequent decrease. The rapid growth period of AE activity increased noticeably with increasing temperature, and the effect of energy accumulation became more significant at higher peak strengths. The failure mode was influenced primarily by the cyclic loading amplitude. In addition, an increase in the stress or temperature after crack initiation leads to a sharp increase in the damage within the rock. Temperature had a more significant effect on the generation of damage than stress. Stress-induced microcracks were concentrated in the weakly bonded particles, whilst temperature-induced microcracks were concentrated in the strongly bonded particles.
- Subject
- damaged rock; cyclic loading; thermal damage; acoustic emission; fracture characteristics; numerical simulation
- Identifier
- http://hdl.handle.net/1959.13/1508154
- Identifier
- uon:56096
- Identifier
- ISSN:0723-2632
- Language
- eng
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