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不等高三连拱隧道衬砌变形分析及控制措施
引用本文:王刚,朱得华,于少辉,熊炎林,白中坤. 不等高三连拱隧道衬砌变形分析及控制措施[J]. 隧道建设, 2012, 32(2): 160-163. DOI: 10.3973/j.issn.1672-741X.2012.02.006
作者姓名:王刚  朱得华  于少辉  熊炎林  白中坤
作者单位:1. 中铁隧道集团技术中心,河南洛阳,471009
2. 河南科技大学规划与建筑工程学院,河南洛阳,471003
摘    要:为找出不等高三连拱隧道衬砌变形的原因和特点,提出相应的施工对策。以京石线DK278+824~DK279+389里程段明挖施工的不等高三连拱隧道为工程依托,针对跨高不相等的特殊结构形式,分析其受力情况,指出该段不等高三连拱隧道衬砌变形的原因及特点。结果发现:高跨隧道混凝土衬砌受到覆土压力及侧向土压力的扭转,衬砌有逆时针整体转动的趋势,隧道底部通过换填片石混凝土可以有效地控制隧道衬砌的竖向位移。通过数值模拟计算,证实了该控制措施的可行性。

关 键 词:不等高三连拱隧道  衬砌变形  衬砌受力  数值计算
收稿时间:2011-12-22

Analysis on Deformation of Lining of Triple-arch Tunnel at Different Altitudes and Its Control Technologies
WANG Gang,ZHU Dehua,YU Shaohui,XIONG Yanlin,BAI Zhongkun. Analysis on Deformation of Lining of Triple-arch Tunnel at Different Altitudes and Its Control Technologies[J]. Tunnel Construction, 2012, 32(2): 160-163. DOI: 10.3973/j.issn.1672-741X.2012.02.006
Authors:WANG Gang  ZHU Dehua  YU Shaohui  XIONG Yanlin  BAI Zhongkun
Affiliation:1.Technology Centre of China Railway Tunnel Group,Luoyang 471009,Henan,China; 2.Planning & Architectural Engineering School,Henan University of Science & Technology,Luoyang 471003,Henan,China)
Abstract:The tunnel from DK278+824 to DK279+389 on Beijing-Shijiazhuang railway is a triple-arch tunnel,with the tunnel tubes being at different altitudes.The loading conditions of the triple-arch tunnel are analyzed and the causes and features of the deformation of the triple-arch tunnel are studied.The results show that,due to the overburden pressure and the lateral soil pressure,the lining of the tunnel tube at higher altitude tends to turn in anticlockwise direction;the vertical displacement of the lining of the tunnel tube at higher altitude can be brought under effective control by means of backfilling rubble concrete at the tunnel floor.The numerical simulation proves that the displacement control technology is feasible.
Keywords:different altitude  triple-arch tunnel  lining  deformation  loading  numerical simulation
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