Rock and Soil Mechanics ›› 2024, Vol. 45 ›› Issue (4): 1170-1180.doi: 10.16285/j.rsm.2023.1796

• Geotechnical Engineering • Previous Articles     Next Articles

A method for determining surrounding rock load borne by antecedence tunnel lining of shallowly buried double-arch tunnel without middle drift

TANG Hua1, JIANG Cheng-ye1, 2, DENG Qin1, BI Tai-jun1, 2, QIN Yu-qiao1   

  1. 1. State Key Laboratory of Geomechanics and Geotechnical Engineering, Institute of Rock and Soil Mechanics, Chinese Academy of Sciences, Wuhan, Hubei 430071, China; 2. University of Chinese Academy of Sciences, Beijing 100049, China
  • Received:2023-11-27 Accepted:2024-01-02 Online:2024-04-17 Published:2024-04-18
  • Supported by:
    This work was supported by the Yunnan Provincial Department of Transportation ([2019]79).

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Abstract: Unlike conventional tunnel lining structures, the antecedence tunnel lining is subject to secondary disturbances from the later excavated tunnel excavation after the lining has been stabilized. The excavation impact of the later excavated tunnel on the surrounding rock pressure acting on the antecedence tunnel lining cannot be ignored. Relying on Yangjiazhai tunnel project, a calculation method for surrounding rock pressure that accounts for the influence of the second tunnel excavation has been developed. This method, in combination with on-site monitoring displacement data and utilizing the load-structure method for inverse analysis, proposes a means of determining the load acting on the antecedence tunnel lining. The field-measured values of the surrounding rock pressure behind the lining were used for comparison and verification. The study results have yielded important insights: 1) The impact of the second tunnel excavation on the first tunnel lining’s ability to withstand surrounding rock pressure is substantial, with the average increase in monitoring points reaching as high as 142%. 2) The pressure acting on the antecedence tunnel lining follows a distribution pattern of being lower at the waist of the arch and higher at the top and the shoulder, with the shoulder of the arch near the later excavated tunnel experiencing the greatest pressure. 3) The results of the surrounding rock loading obtained from the inverse analysis are more consistent with the field monitoring results, which argues for the soundness and practicality of the approach, and providing a reference basis for the structural design for the double-arch tunnel without middle drift.

Key words: load structure method, double-arch tunnel without middle drift, displacement inverse analysis, force on the lining

CLC Number: 

  • TU 452
[1] BI Tai-jun, DENG Qin, TANG Hua, JIANG Cheng-ye, QIN Yu-qiao, . Analytical solution of stress and displacement of double-arch tunnel without middle drift based on functions of complex variables [J]. Rock and Soil Mechanics, 2024, 45(3): 777-787.
[2] CAO Jia-qi, WANG Hong-xin, WANG Ping, SUN De-an, . A method for evaluating safety of civil air defense structure based on load structure method and strength reduction method [J]. Rock and Soil Mechanics, 2023, 44(7): 2105-2114.
[3] JIA Chao ,LIU Ning ,XIAO Shu-fang . Application of direct displacement inverse analysis to rock mass parameters of caverns [J]. , 2003, 24(3): 450-454.
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