隧道初支合理支护时机确定方法及其工程应用

Determination method and engineering application of reasonable installation timing of the initial ground support

  • 摘要: 将岩体破坏接近度指标(FAI)引入隧道支护设计,明确了围岩临界支护时机判别准则。基于有限差分数值计算程序,合理考虑岩体峰后应变软化特性,建立了一种隧道最优支护时机确定方法。通过算例分析,定量探讨了表征支护时机的重要参数,从工程角度阐释了支护时机的本质意义。结果表明:岩体地质强度指标GSI由75减小至25时,支护时机提前8.32 m;岩石材料常数mi由20减小至10时,支护时机提前5.85 m;岩石单轴抗压强度σci由80 MPa减小至40 MPa时,支护时机提前3.74 m;工程扰动参数D由0增加至0.8时,支护时机提前7.44 m。将建立方法在玉渡山隧道工程中进行应用,计算出研究区段的支护时机为3.3 m,经现场监测表明该方法有效、可行。该研究成果可为隧道支护体系的量化设计提供参考。

     

    Abstract: The surrounding rock support is a key issue in tunnel construction. The reasonable supporting time can not only ensure the safety of tunnel construction but also achieve the purpose of saving support costs. Currently, the support time determination mainly depends on on-site monitoring information and engineering experience, and there is still a lack of effective quantitative design methods. To overcome this deficiency, systematic research was conducted based on the case project of the Yudushan tunnel in the Yan-Chong expressway. The failure approach index was introduced in the tunnel support design, and the criterion of critical surrounding rock supporting time was defined. Based on the finite difference numerical calculation program and reasonable consideration of the post-peak strain softening characteristics of the rock mass, a method for determining an optimal tunnel supporting time was established. Through the analysis of numerical examples, the important parameters characterizing the supporting time were discussed quantitatively, and the essential significance of the supporting time was revealed from the engineering perspective. The results show that the supporting time increases by 8.32 m as the geological strength index is reduced from 75 to 25; the supporting time increases by 5.85 m as the intact rock material property, mi, is reduced from 20 to 10; the supporting time increases 3.74 m as the uniaxial compressive strength of rock, σci, is reduced from 80 to 40 MPa; the supporting time increases by 7.44 m as the engineering disturbance coefficient, D, is increased from 0 to 0.8. The proposed method was applied in the Yudushan tunnel project. The supporting time of the research section is 3.3 m. Field monitoring shows that the method is effective and feasible and provides a reference for the tunnel support system’s quantitative design.

     

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