富水圆砾地层地铁盾构隧道施工对既有管线变形影响规律分析
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摘要
以南宁轨道交通2号线某区间盾构双线隧道先后通过与隧道间距不同的管线为工程背景,通过FLAC软件数值计算和现场监测相结合的方法研究了富水圆砾地层地铁盾构隧道施工对既有临近管线变形的影响规律。结果表明:随着地层深度增加,沉降槽宽度减小;管线最大沉降量出现在左线隧道中线上方;盾构刀盘通过2倍盾构外径范围后,管线沉降逐渐趋于稳定;管线沉降曲线受右线隧道开挖影响不再符合高斯曲线,同时管线最大拉应力呈增加趋势,而最大压应力呈减小趋势。研究结果可为类似工况下地铁盾构隧道的安全施工提供参考。
Taking the shield double-line tunnel of a section on Nanning rail transit Line 2 as the engineering background, which passes through pipelines with different distances from the tunnel, FLAC software numerical calculation method and on-site monitoring are combined to study the influence law of metro tunneling in rich water gravel formation on the deformation of adjacent pipelines. The results show that as the depth of the formation increases, the settlement tank width will decrease; the maximum settlement of the pipeline appears above the central line in the left-line tunnel; the settlement of the cutter head gradually becomes stable after passing 2 times range of the external shield diameter; the settlement curve of the pipeline then conforms no longer to the Gaussian curve because of the tunnel excavation on the right-line. At the same time, the maximum tensile stress of the pipeline increases, and the maximum tensile stress decreases. The research results provide references for the safe shield construction of metro tunnel under similar conditions.
Taking the shield double-line tunnel of a section on Nanning rail transit Line 2 as the engineering background, which passes through pipelines with different distances from the tunnel, FLAC software numerical calculation method and on-site monitoring are combined to study the influence law of metro tunneling in rich water gravel formation on the deformation of adjacent pipelines. The results show that as the depth of the formation increases, the settlement tank width will decrease; the maximum settlement of the pipeline appears above the central line in the left-line tunnel; the settlement of the cutter head gradually becomes stable after passing 2 times range of the external shield diameter; the settlement curve of the pipeline then conforms no longer to the Gaussian curve because of the tunnel excavation on the right-line. At the same time, the maximum tensile stress of the pipeline increases, and the maximum tensile stress decreases. The research results provide references for the safe shield construction of metro tunnel under similar conditions.
引文
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[3] 谷拴成,贺恒炜,茹国锋.地铁隧道工程开挖过程中地下管线的受力情况分析[J].城市轨道交通研究,2015(5):14.
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[5] 黄晓康,卢坤林,朱大勇.盾构施工对不同位置地下管线变形的影响模拟试验研究[J].岩土力学,2017(增刊1):123.
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[2] 高丙丽,任建喜.盾构始发井施工对周围管线的变形影响规律及其控制技术[J].现代隧道技术,2014(3):193.
[3] 谷拴成,贺恒炜,茹国锋.地铁隧道工程开挖过程中地下管线的受力情况分析[J].城市轨道交通研究,2015(5):14.
[4] 范德伟,宋晓光.盾构开挖对地下管线影响的数值模拟分析[J].燕山大学学报,2009(3):247.
[5] 黄晓康,卢坤林,朱大勇.盾构施工对不同位置地下管线变形的影响模拟试验研究[J].岩土力学,2017(增刊1):123.
[6] 中国市政工程华北设计研究院.给水排水设计手册第12册器材与装置[M].北京:中国建筑工业出版社,2001.
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