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Finite element analysis of long-term surface settlement above a shallow tunnel in soft ground
Highlights ► Surface settlement above a tunnel was analyzed using finite element method. ► Ground creep takes an important role in determining long-term surface settlement. ► The influence of drainage condition on surface settlement was investigated. ► Different stress paths cause different surface settlement troughs. ► The installation of concrete lining helps the stabilization of ground deformation.
Abstract The construction of a tunnel in soft ground generally induces short-term and long-term ground settlements above the tunnel. In this study, finite element analysis of surface settlement above a shallow tunnel in clay till was performed. Field observations were performed to monitor the ground settlements above the tunnel and pore pressure changes around the tunnel. Four cases were simulated to investigate the influences of soil creep and flow boundary on surface settlement above the tunnel. The predicted surface settlement and pore pressure change were compared with those from field observations. From this study, it was found that creep behavior of the clay till played an important role in quantifying the long-term settlements above the tunnel, and the primary lining used in the tunnel construction could be approximately simulated by permeable flow boundary at the tunnel periphery. In addition, the influence of concrete lining installation on the long-term surface settlement was discussed.
Finite element analysis of long-term surface settlement above a shallow tunnel in soft ground
Highlights ► Surface settlement above a tunnel was analyzed using finite element method. ► Ground creep takes an important role in determining long-term surface settlement. ► The influence of drainage condition on surface settlement was investigated. ► Different stress paths cause different surface settlement troughs. ► The installation of concrete lining helps the stabilization of ground deformation.
Abstract The construction of a tunnel in soft ground generally induces short-term and long-term ground settlements above the tunnel. In this study, finite element analysis of surface settlement above a shallow tunnel in clay till was performed. Field observations were performed to monitor the ground settlements above the tunnel and pore pressure changes around the tunnel. Four cases were simulated to investigate the influences of soil creep and flow boundary on surface settlement above the tunnel. The predicted surface settlement and pore pressure change were compared with those from field observations. From this study, it was found that creep behavior of the clay till played an important role in quantifying the long-term settlements above the tunnel, and the primary lining used in the tunnel construction could be approximately simulated by permeable flow boundary at the tunnel periphery. In addition, the influence of concrete lining installation on the long-term surface settlement was discussed.
Finite element analysis of long-term surface settlement above a shallow tunnel in soft ground
Wang, Zhechao (author) / Wong, Ron C.K. (author) / Li, Shucai (author) / Qiao, Liping (author)
Tunnelling and Underground Space Technology ; 30 ; 85-92
2012-02-07
8 pages
Article (Journal)
Electronic Resource
English
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