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张旭, 张成平, 韩凯航, 王剑晨. 隧道下穿既有地铁车站施工结构沉降控制案例研究[J]. 岩土工程学报, 2017, 39(4): 759-766. DOI: 10.11779/CJGE201704023
引用本文: 张旭, 张成平, 韩凯航, 王剑晨. 隧道下穿既有地铁车站施工结构沉降控制案例研究[J]. 岩土工程学报, 2017, 39(4): 759-766. DOI: 10.11779/CJGE201704023
ZHANG Xu, ZHANG Cheng-ping, HAN Kai-hang, WANG Jian-chen. Case study of control technology of structural settlements due to tunnelling beneath a subway station[J]. Chinese Journal of Geotechnical Engineering, 2017, 39(4): 759-766. DOI: 10.11779/CJGE201704023
Citation: ZHANG Xu, ZHANG Cheng-ping, HAN Kai-hang, WANG Jian-chen. Case study of control technology of structural settlements due to tunnelling beneath a subway station[J]. Chinese Journal of Geotechnical Engineering, 2017, 39(4): 759-766. DOI: 10.11779/CJGE201704023

隧道下穿既有地铁车站施工结构沉降控制案例研究

Case study of control technology of structural settlements due to tunnelling beneath a subway station

  • 摘要: 北京地铁6号线朝阳门站至东大桥站区间隧道采用平顶直墙结构垂直密贴下穿既有2号线朝阳门站。采用FLAC3D模拟分析了密贴下穿施工引起既有地铁车站结构沉降规律,据此提出了下穿施工期间既有地铁车站结构沉降控制方案,并基于现场监测数据对既有地铁车站结构沉降进行了分析与安全性评价,主要取得以下认识:下穿段两沉降缝间的既有地铁车站结构为沉降控制的重点区域;区间隧道下穿施工期间,初支背后回填注浆能够在一定程度上减小既有地铁车站结构沉降,千斤顶顶升则是既有地铁车站结构沉降控制的关键措施;隧道开挖初期既有地铁车站结构沉降显著,根据现场监测数据及时调整千斤顶顶升力并加强注浆质量,确保了下穿施工期间既有地铁车站的结构安全。研究成果可为城市新建隧道密贴下穿既有地下结构等类似工程提供借鉴及参考。

     

    Abstract: The case study of closely spaced twin tunnels excavated vertically beneath the adjacent Chaoyangmen station in Beijing, China is introduced. The existing subway station is part of the Beijing subway Line 2. The new rectangular twin tunnels, running from Chaoyangmen station to Dongdaqiao station, are part of Beijing subway Line 6. The numerical simulation analysis using FLAC3D is conducted to analyze the structural settlement of the subway station due to the construction of the adjacent twin tunnels excavated by using the shallow tunnelling method. The control scheme of the structural settlement of the subway station is proposed. In addition, more attentions are focused on the analysis and safety evaluation on the structural settlement based on the monitoring data. The main conclusions are as follows: the section of the subway station between twin movement joints near the twin tunnels is the key zone for settlement control. Some required measures are adopted during the construction of twin tunnels beneath the adjacent subway station. It’s found that the backfill grouting behind the primary lining of tunnel reduces the structural settlement of the subway station to some extent, and lifting by hydraulic jacks is the key part in the settlement control. Moreover, there is obvious structural settlement of the subway station at the early stage of construction. According to the monitoring data, the loadings of lifting jacks are adjusted, and the quality of grouting reinforcement is strengthened in time to ensure the structural safety of the subway station during construction. The research results can provide reference for similar projects of new subway tunnels excavated beneath adjacent existing underground structures in urban areas.

     

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