文章摘要
晏 莉, 杨海涛.盾构隧道施工引起地层位移的复变函数修正解Journal of Water Resources and Water Engineering[J].,2022,33(4):192-201
盾构隧道施工引起地层位移的复变函数修正解
Corrected solution of complex function for ground displacement caused by shield tunnel construction
  
DOI:10.11705/j.issn.1672-643X.2022.04.26
中文关键词: 盾构隧道  地层位移  复变函数  位移释放系数  位移边界  土体变形
英文关键词: shield tunnel  ground displacement  complex function  displacement release coefficient  displacement boundary  deformation of soil mass
基金项目:国家自然科学基金项目(51408067); 湖南省教育厅优秀青年项目(18B136); 长沙理工大学土木工程重点学科创新性项目(10ZDXK06)
Author NameAffiliation
YAN Li, YANG Haitao (长沙理工大学 土木工程学院 湖南 长沙 410114) 
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中文摘要:
      为了获得盾构隧道施工引起的地层位移变化,利用复变函数求解了基于位移控制边界条件下盾构隧道开挖后的解析解。在计算分析过程中,引入位移释放系数,充分考虑了衬砌滞后于开挖面的位移过程,并通过设置位移约束点对理论计算解进行了修正,获得了更为准确的地表相对位移。选取4例实际盾构隧道工程实例,分别考虑4种典型洞室位移边界条件,将该理论计算得到的地表位移初始解和修正解与现场实测数据进行对比,结果表明:在各种洞室位移边界条件下,修正后得到的地表位移值与实测值的吻合度均比初始解显著提高,其中以采用第4种位移边界条件计算得到的地表位移修正解吻合度最高。最后以第4种洞室变形为位移边界条件,分析了不同位移释放系数、隧道埋深以及隧道半径对地表位移的影响。结果表明:地表沉降与影响范围随着位移释放系数的增大而减小;地表沉降随着埋深的增加而减小,沉降槽宽度却随之增加;隧道半径越大,则地表沉降越大且影响范围越宽。
英文摘要:
      In order to obtain the ground displacement variation caused by shield tunnel construction, the complex function is used to obtain the analytical solution of the tunnel after shield excavation based on displacement controlled boundary conditions. In the calculation and analysis process, the displacement release coefficient is introduced, and the displacement process of lining lagging behind the excavation surface is fully considered. The theoretical calculation solution is corrected by setting the displacement constraint point, in order to obtain a more accurate surface relative displacement. Then, four actual shield tunnel projects are selected for the case study with the consideration of four typical cavern displacement boundary conditions. The initial solution of the surface displacement obtained by the theoretical calculation is compared with the corrected solution and the field measured data. The results show that no matter which kind of cavern displacement boundary condition is selected, the consistency between the corrected surface displacement value and the measured value is significantly improved compared with the initial solution, among which the corrected surface displacement solution calculated by the fourth displacement boundary condition has the highest consistency with the measured value. Finally, the influence of different displacement release coefficients, buried depths and radii on surface displacement is analyzed using the fourth cavern displacement as the boundary condition. The results show that the surface settlement and influence range decrease with the increase of the displacement release coefficient; with the increase of the buried depth, the surface settlement decreases but the width of the settlement trough and the tunnel radius increase; the larger the surface settlement and the wider the influence range.
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