Rock and Soil Mechanics ›› 2023, Vol. 44 ›› Issue (S1): 399-409.doi: 10.16285/j.rsm.2022.1282

• Fundamental Theroy and Experimental Research • Previous Articles     Next Articles

Meso-damage and mechanical characteristics of surrounding rock under unloading condition

LIANG Jin-ping1, 2, JING Hao-yong3, HOU Gong-yu4, LI Xiao-rui1, 2, ZHANG Ming-lei1, 2   

  1. 1. College of Geological Engineering, Institute of Disaster Prevention, Sanhe, Hebei 065201, China; 2. Hebei Key Laboroatory of Earthquake Disaster Prevention and Risk Assessment, Institute of Disaster Prevention, Sanhe, Hebei 065201, China; 3. Pipe China Engineering Technology Innovation Co., Ltd., Tianjin 300450, China; 4. School of Mechanics and Civil Engineering, China University of Mining and Technology, Beijing 100083, China
  • Received:2022-06-14 Accepted:2022-11-02 Online:2023-11-16 Published:2023-11-19
  • Supported by:
    This work was supported by the Fundamental Research Funds for the Central Universities (ZY20230208) and the Key Program of National Natural Science Foundation of China (U2034205).

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Abstract: In order to obtain the meso-damage evolution law and mechanical response of tunnel surrounding rock in unloading failure process, the numerical simulation of the internal meso-damage of the surrounding rock during unloading was carried out by the particle discrete element method, and the effect of the initial stress on the failure and mechanical properties of the surrounding rock was analyzed by combining the failure characteristics of thick-walled cylindrical surrounding rock specimens. The results show that: (1) The cracks induced by unloading were distributed around the inner wall of the specimen. Under the influence of unloading stress adjustment, the cracks accumulated and gradually diverged and expanded to the outer wall, showing an "hourglass-type" damage failure. (2) The number of cracks generated by unloading increases exponentially with the increase of stress, and the growth rate of the number of cracks after unloading was significantly higher than that of the number of cracks during unloading. (3) When the unloading stress level was lower than 80% of the uniaxial peak strength of the surrounding rock, the stress was fully adjusted during unloading and remained stable after unloading. When the unloading stress level was higher than the uniaxial peak strength of the surrounding rock, the stress was not sufficiently adjusted in unloading stage and continued to be adjusted after unloading, resulting in "V-shaped" destruction of the surrounding rock. (4) The initial stress level has a significant impact on the excavation unloading-induced damage failure and mechanical properties of the surrounding rock. The larger the stress level, the earlier the time of damage rupture of the surrounding rock after unloading.

Key words: excavation unloading, discrete element method, surrounding rock, meso-damage, mechanical behavior

CLC Number: 

  • TU 452
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