大直径泥水盾构始发钢套筒的防扭施工技术——以孟加拉卡纳普里河水下隧道为例被引量：5

Torsion-resistant Construction Technology for Steel Sleeve Used in Launching of Large-diameter Slurry Shield: a Case Study of Canapuri River Tunnel in Bangladesh

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摘要为更好地控制超大直径泥水平衡盾构始发阶段的施工风险,依托"一带一路"孟中印缅经济走廊大型基础设施项目孟加拉卡纳普里河水下隧道,采用开挖直径12.16 m超大型气垫式泥水加压平衡盾构密闭始发钢套筒进行始发。为解决当地吊装资源和远洋航运的限制,钢套筒采用分片设计。盾构在套筒内破除洞门围护结构前,须严格控制盾构掘进转矩,避免盾体及钢套筒整体扭转。对钢套筒始发整体扭转进行分析,并运用有限元仿真技术分析始发施工中的盾构钢套筒抗扭性能。研究结果表明:钢套筒可以满足始发前后所需的抵抗转矩,最大应力为16.6 MPa,最大位移为0.52 mm,最大水平位移为0.02 mm,最大竖向位移为0.51mm,满足盾构始发钢套筒的受力和变形验算条件。基于仿真计算结果,制定对应的超大直径盾构始发钢套筒的抗扭措施。 The construction risks in the launching stage of super-large slurry balance shield should be controlled.As a result, the steel sleeve used in launching of a super-large air cushion slurry pressure balance shield with a diameter of 12.16 m of the Canapuri River Tunnel Project in Bangladesh of Bangladesh-China-India-Myanmar Economic Corridor of " the Belt and Road" is designed in sections considering the local hoisting resources and the limitation of ocean shipping.Before the shield breaks the retaining structure behind the tunnel portal in the sleeve, it is necessary to strictly control the driving torque of the shield to avoid the whole torsion of the shield body and the steel sleeve.The torsional resistance of the steel sleeve of the shield during the launching construction is analyzed by using finite element simulation technology.The results show that:(1) The steel sleeve can meet the resistance torque required for shield launching.(2) The maximum stress of the steel sleeve, the maximum displacement, the maximum horizontal displacement and the maximum vertical displacement are 16.6 MPa, 0.52 mm, 0.02 mm and 0.51 mm, respectively, which satisfies the checking conditions of the stress and deformation of the initial steel sleeve of shield tunneling.The corresponding anti-torsion measures for steel sleeve launching of super-large diameter shield are formulated based on the simulation results.

作者吴忠仕贺祖浩刘文许超孔茜 WU Zhongshi;HE Zuhao;LIU Wen;XU Chao;KONG Qian(CCCC Second Harbor Engineering Co.,Ltd.,Wuhan 430040,Hubei,China;Key Laboratory of Long Bridge Construction Technology and Transportation Industry,Wuhan 430014,Hubei,China;Transportation Infrastructure Intelligent Manufacturing Technology Research and Development Center,Wuhan 430014,Hubei,China;School of Civil Engineering&Mechanics,Huazhong University of Science and Technology,Wuhan 430074,Hubei,China;China Communications Highway Long Bridge Construction National Engineering Research Center Co.,Ltd.,Wuhan 430014,Hubei,China)

机构地区中交第二航务工程局有限公司长大桥梁建设施工技术交通行业重点实验室交通运输行业交通基础设施智能制造技术研发中心华中科技大学土木工程与力学学院中交公路长大桥建设国家工程研究中心有限公司

出处《隧道建设（中英文）》北大核心 2020年第S01期321-326,共6页 Tunnel Construction

关键词海底隧道泥水平衡盾构盾构始发钢套筒有限元分析抗扭性能 subsea tunnel slurry balance shield shield launching steel sleeve finite element analysis torsion resistance

分类号 U455.43 [建筑科学—桥梁与隧道工程]

作者简介第一作者: 吴忠仕(1968—),男,四川安岳人,1987 年毕业于上海铁道学院,铁道工程专业,本科,高级工程师,现主要从事地下工程施工工作。E-mail: 374662779@ qq. com。;通信作者: 刘文, E-mail: 379047775@ qq. com。