期刊
TUNNELLING AND UNDERGROUND SPACE TECHNOLOGY
卷 115, 期 -, 页码 -出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.tust.2021.104074
关键词
Analytical model; Support-surrounding rock interaction; Pre-reinforcement; Tunnel displacement; Fictitious support pressure; Support reaction pressure
资金
- National key R&D Program of China [2017YFC0805401]
- National Natural Science of China [51738002]
This paper investigates the behavior of support-surrounding rock interaction considering pre-reinforcement. An equivalent material approach is adopted to improve ground strength due to pre-reinforcement. The proposed method allows for fast sizing of primary support by establishing compatibility equations for tunnel displacement and support pressure. The analytical results are validated by numerical simulations and in-situ measurements, showing the superiority of the proposed model.
The behavior of support-surrounding rock interaction considering pre-reinforcement is investigated in this paper. Since previous analyses give little consideration to the influence of pre-reinforcement on the support-surrounding rock interaction, the equivalent material approach is adopted such that the ground strength is improved as the result of pre-reinforcement. The fictitious support pressure is introduced to quantify the spatial effect of excavation face, whose solution varies with the configurations of the surrounding rock based on the plastic zone distributions. The compatibility equations of tunnel displacement and support pressure are established accounting for the tunnel displacement prior to support installation. Using the critical displacements defining the transition of different configurations, an analytical method for the whole process of support and surrounding rock action is proposed. Plane-strain analysis is performed to obtain the tunnel displacement and reaction pressure of primary support along the tunnel axis. The proposed method allows a fast dimensioning of the primary support considering the effect of pre-reinforcement. The analytical results are validated by 3D numerical simulations and in-situ measurement. Additionally, a comparison reveals that the proposed model excels the traditional convergence-confinement method in solving the mentioned problem.
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