基于CDEM的层状节理隔水岩柱水压致裂特性研究

doi:10.19952/j.cnki.2096-5052.2021.03.08

Hazard Control in Tunnelling and Underground Engineering

2021, Vol. 3

Issue (3): 76-84 DOI: 10.19952/j.cnki.2096-5052.2021.03.08

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Hydraulic fracturing characteristics of water resisting rock mass with layered joints based on CDEM

HOU Fujin¹, ZHANG Li^2*, JIANG Qing¹, FENG Chun², LI Shihai²

1. Shandong Hi-speed Construction Management Group Co., Ltd., Jinan 250014, Shandong, China;
2. Institute of Mechanics, Chinese Academy of Sciences, Beijing 100190, China

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Abstract In order to study the hydraulic fracturing characteristics of water resisting rock mass with layered joints in karst tunnels, an analysis model of water resisting rock mass was established, the key factors affecting the critical hydraulic pressure of rock column was obtained through dimensional analysis, and the rock strength properties of single joint element was analyzed. With the help of continuum-discontinuum element method to observe the fracture crack and penetration process,the failure mode and critical water pressure of the water resisting rock mass with different joint inclination angles were obtained, as well as the evolution law of the rock mass fracture degree and damage degree. The numerical results showed that the failure modes of water resisting rock mass with layered jointed included bedrock failure, interlayer failure and composite failure; influenced by the weight of overlying strata, the critical water pressure of water resisting rock column had an obvious obliquity effect, which first decreased and then increased; the fracture degree and damage degree of interlayer penetrating failure were much less than that of bedrock penetrating failure.

Key words： layered joint karst tunnel failure mode continuum-discontinuum water inrush

Received: 09 April 2021 Published: 20 September 2021

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	HOU Fujin
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Cite this article:

HOU Fujin,ZHANG Li,JIANG Qing, et al. Hydraulic fracturing characteristics of water resisting rock mass with layered joints based on CDEM[J]. Hazard Control in Tunnelling and Underground Engineering, 2021, 3(3): 76-84.

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http://tunnel.sdujournals.com/EN/10.19952/j.cnki.2096-5052.2021.03.08 OR http://tunnel.sdujournals.com/EN/Y2021/V3/I3/76

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