极高地应力软岩隧道超前导洞应力释放及多层支护变形控制技术  被引量:27

Stress Releasing and Deformation Control Technology of Multilayer Support for Pilot Heading of a Soft Rock Tunnel with Extremely High Ground Stress

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作  者:尤显明[1] 李沿宗[1] 

机构地区:[1]中铁隧道集团有限公司,河南洛阳471009

出  处:《隧道建设》2017年第7期832-837,共6页Tunnel Construction

摘  要:为了解决极高地应力软岩隧道大变形控制难题,以兰渝铁路木寨岭隧道岭脊核心段施工为例,通过现场试验和数据分析,得到如下主要结论:1)提出了"先放后抗,抗放结合,锚固加强"的变形控制理念;2)得出了该隧道岭脊核心段"超前导洞应力释放+圆形4层支护结构+径向注浆+长锚杆+长锚索"综合变形控制方案;3)超前导洞应力释放效果明显,正洞累计变形减小幅度约为34%;4)得到了圆形多层支护结构变形规律;5)累计变形均控制在设计预留变形量内,保证了该隧道岭脊核心段大变形控制效果。The control of large deformation of soft rock tunnel with extremely high ground stress is always a difficulty.As a result,field test and data analysis are carried out for core mountain ridge section of Muzhailing Tunnel on Lanzhou-Chongqing Railway.Some conclusions are drawn as follows:1)The deformation control idea of "release first and then resistance,combination of release and resistance,and anchoring reinforcement" is put forward.2)The tunnel deformation control scheme of "pilot heading stress releasing+four layers of circular supporting structure+radial grouting+long anchor bolt+long anchor cable" is adopted for the core mountain ridge section.3)The stress releasing effect of pilot heading is obvious;and the accumulated deformation of main tunnel is decreased about 34%.4)The deformation law of circular multilayer support structure is obtained.5)The effect of the large deformation control has been ensured.

关 键 词:高地应力软岩隧道 超前导洞应力释放 多层支护 变形控制 

分 类 号:U455.4[建筑科学—桥梁与隧道工程]

 

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