隧道台阶法施工上台阶长度对隧道变形的影响

doi:10.19952/j.cnki.2096-5052.2022.01.07

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摘要为研究隧道台阶法施工台阶长度对隧道变形的影响,以甘肃省某隧道台阶法施工的上台阶长度和循环开挖进尺为参数,采用三维有限元计算模型,进行围岩及支护结构稳定性分析。结果表明:上台阶长度对塑性区范围、围岩应力、拱顶下沉及周边收敛有显著影响;随着循环进尺的增加,最大地表沉降逐渐增大,在距离隧道中心线两侧25 m以外,地表沉降增长速率迅速减小并趋于平稳;Ⅳ级围岩地段,上台阶长度取开挖跨度的1~1.5倍,约为15 m;循环开挖进尺为1.5 m。隧道施工过程中,围岩位移、地表沉降等监测结果均满足施工安全要求,验证了本模型数据分析的安全性和准确性,该研究结果可以为采用台阶法施工的隧道提供一定的借鉴。

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	李钊
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关键词: 隧道施工台阶法台阶长度循环进尺数值模拟

Abstract: In order to study the effect of upper step length on tunnel deformation in tunnel step construction, the stability of surrounding rock and supporting structure was analyzed by using three dimensional finite element model, taking the step length and circular excavation length of a tunnel in Gansu province as parameters. The results showed that the length of the upper step had a significant impact on the plastic area range, surrounding rock stress, arch subsidence and surrounding convergence; the maximum surface settlement gradually increases. Besides 25 m from the tunnel center line, the surface settlement growth rate slows down and stabilizes; the length of the upper step is 1~1.5 times, about 15 m, and the circulating excavation meter was 1.5 m. During the tunnel construction, the monitoring results of surrounding rock displacement and surface settlement met the construction safety requirements, and verify the safety and accuracy of the analysis of the model data analysis. The research results can provide some reference for the tunnel constructed by step method.

Key words: tunnel construction step method step length cycle into the ruler numerical simulation

收稿日期: 2021-10-08 修回日期: 2021-12-07 发布日期: 2022-03-20

中图分类号:

TU435

基金资助: 国家自然科学基金资助项目(５１９６８０４１)

通讯作者: 梁庆国(1976—),男,甘肃临洮人,博士,教授,博士生导师,主要研究方向为岩土与隧道工程. E-mail: lqg_39@163.com

作者简介: 李钊(1989— ),男,河南商丘人,硕士研究生,主要研究方向为交通运输工程. E-mail:4689508@qq.com

引用本文:

李钊, 梁庆国, 孙文, 曹小平. 隧道台阶法施工上台阶长度对隧道变形的影响[J]. 隧道与地下工程灾害防治, 2022, 4(1): 55-62.
LI Zhao, LIANG Qingguo, SUN Wen, CAO Xiaoping. The effect of upper step length on tunnel deformation in tunnel step construction. Hazard Control in Tunnelling and Underground Engineering, 2022, 4(1): 55-62.

链接本文:

http://tunnel.sdujournals.com/CN/Y2022/V4/I1/55

[1] 张俊儒,史博然,汪家雷,等.塌方段原位扩建四车道公路隧道“回填-台阶法”施工力学及安全分析[J].中国公路学报,2021,34(6):109-124. ZHANG Junru, SHI Boran, WANG Jialei, et al. Construction mechanics and safety analysis of "backfill-bench method" for in situ expansion of four-lane highway tunnel in collapsed section[J]. China Journal of Highway and Transport, 2021, 34(6): 109-124.
[2] 冯建. 天平铁路关山隧道施工数值模拟与稳定性分析[D].兰州:兰州交通大学,2012. FENG Jian. The construction numerical simulation and stability analysis for Guanshan Tunnel of Tianping Railway[D]. Lanzhou: Lanzhou Jiatong University, 2012.
[3] SAADA Z, MAGHOUS S, GARNIER D. Pseudo-static analysis of tunnel face stability using the generalized Hoek-Brown strength criterion[J]. International Journal for Numerical and Analytical Methods in Geomechanics, 2013, 37(18): 3194-3212.
[4] 王记平,王凯,夏勇,等.隧道三台阶带仰拱一次开挖台阶长度研究[J].公路,2021,66(7):345-348. WANG Jiping, WANG Kai, XIA Yong, et al.Study on step length of three-step inverted arch excavation in tunnel[J]. Highway, 2021, 66(7):345-348.
[5] 严鹏飞,殷建光,葛新辉,等.不同埋深隧道开挖对地表沉降影响的三维有限元分析[J].广西大学学报(自然科学版),2021,46(1):60-66. YAN Pengfei, YIN Jianguang, GE Xinhui, et al. Three-dimensional finite element analysis of influence by excavation of different buried tunnels on ground subsidence[J]. Journal of Guangxi University(Natural Science Edition), 2021, 46(1): 60-66.
[6] 陈云腾,孙振华.越岭特长公路隧道施工围岩稳定性分析[J].公路,2021,66(5):332-337. CHEN Yunteng, SUN Zhenhua. Stability analysis of surrounding rock during construction of long highway tunnel[J]. Highway, 2021, 66(5):332-337.
[7] 马辉,李杰,左巧峰,等.基于精细爆破的隧道微台阶开挖工法与工程应用[J].铁道工程学报,2012,29(1):57-61. MA Hui, LI Jie, ZUO Qiaofeng, et al. Micro bench method for tunnelling with fine blasting and its engineering application[J]. Journal of Railway Engineering Society, 2012, 29(1): 57-61.
[8] 李达,李永生,罗占夫.复杂条件下隧道开挖循环进尺优化方法研究[J].岩土力学,2013,34(2):498-502. LI Da, LI Yongsheng, LUO Zhanfu. Study of footage optimization method of tunneling cycle under complicated conditions[J].Rock and Soil Mechanics,2013, 34(2):498-502.
[9] 蒋亮,熊成宇.隧道施工不同台阶长度开挖数值模拟对比分析[J].公路工程,2019,44(6):161-165. JIANG Liang, XIONG Chengyu. Comparative analysis of numerical simulation for excavation of different step lengths in tunnel construction with step method[J]. Highway Engineering, 2019, 44(6):161-165.
[10] 杨成忠,吴宇健,王威,等.大断面软岩隧道开挖空间效应影响分析[J].地下空间与工程学报,2021,17(2):511-519. YANG Chengzhong, WU Yujian, WANG Wei, et al. Analysis on influence of spacial effect on excavation of soft rock tunnel with large cross section[J]. Chinese Journal of Underground Space and Engineering, 2021, 17(2): 511-519.
[11] 胡长明,任孟德,张延杰,等.基于微台阶法对连拱隧道稳定性的研究[J].安全与环境学报,2021,21(1):154-162. HU Changming, REN Mengde, ZHANG Yanjie, et al. Study on the double-arch tunnel stability based on the micro bench theoretical method[J]. Journal of Safety and Environment, 2021, 21(1): 154-162.
[12] 张宁,张光伟,刘瑞辉,等.隧道台阶法施工中台阶长度的优化分析[J].公路,2019,64(10):299-303. ZHANG Ning, ZHANG Guangwei, LIU Ruihui, et al. Optimization analysis of step length in tunnel construction by bench method[J]. Highway, 2019, 64(10): 299-303.
[13] 张天祺. 软岩隧道台阶法施工变形控制措施研究[D].兰州:兰州交通大学,2015. ZHANG Tianqi. Study on deformation control measures of soft rock tunnel construction by step method[D]. Lanzhou: Lanzhou Jiaotong University, 2015.
[14] 梁桥,杨小礼,陈翔.隧道循环进尺的极限平衡分析[J].华南理工大学学报(自然科学版),2017,45(5):113-119. LIANG Qiao, YANG Xiaoli, CHEN Xiang. Limit equilibrium analysis of round length in tunnel excavation[J]. Journal of South China University of Technology(Natural Science Edition), 2017, 45(5): 113-119.
[15] 安永林,李佳豪,曹前, 等.基于极限分析的进尺对隧道掌子面稳定性影响[J].铁道科学与工程学报,2019,16(2):443-449. AN Yonglin, LI Jiahao, CAO Qian, et al. Influence of excavation footage on tunnel face stability using limit analysis[J]. Journal of Railway Science and Engineering, 2019, 16(2): 443-449.
[16] 段长高,杨杰.循环进尺对大断面浅埋隧道稳定性的影响[J].公路工程,2019,44(3):128-132. DUAN Changgao, YANG Jie. Effect of cyclic length on stability of large section shallow buried tunnel[J]. Highway Engineering, 2019, 44(3): 128-132.
[17] 赵佃锦,梁庆国,鲁得文,等.高地应力隧道台阶法施工过程数值模拟[J].地下空间与工程学报,2014,10(2):441-448. ZHAO Dianjin, LIANG Qingguo, LU Dewen, et al. Numerical simulation on construction process of high ground stress tunnel by bench method[J]. Chinese Journal of Underground Space and Engineering, 2014, 10(2): 441-448.
[18] 中交第二公路勘察设计研究院有限公司. 公路隧道设计细则:JTG/T D70—2010[S]. 北京:人民交通出版社, 2010.
[19] 张素敏,刘勇.隧道上台阶极限位移计算模拟[J].石家庄铁道学院学报,2003,16(增刊1):5-7. ZHANG Sumin, LIU Yong. Simulation of limit displacements for tunnel upper bench[J]. Journal of Shijiazhuang Railway Institute, 2003, 16(Suppl.1): 5-7.
[20] 徐东强,燕鹏,李彦奇,等.公路山岭隧道初期支护极限相对位移的确定[J].隧道建设,2017,37(9):1083-1089. XU Dongqiang, YAN Peng, LI Yanqi, et al. Determination of ultimate relative displacements of primary support of mountain-crossing highway tunnel[J]. Tunnel Construction, 2017, 37(9): 1083-1089.
[21] 重庆交通科研设计院. 公路隧道设计规范: JTG D70—2004[S].北京:人民交通出版社,2004.
[22] 中交一公局集团有限公司. 公路隧道施工技术规范:JTG/T 3660—2020[S].北京:人民交通出版社,2020.

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