Numerical investigation of tunneling in saturated soil: the role of construction and operation periods |
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| Authors: | Arash Alimardani Lavasan Chenyang Zhao Thomas Barciaga Alexander Schaufler Holger Steeb Tom Schanz |
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| Institution: | 1.Chair of Foundation Engineering, Soil and Rock Mechanics,Ruhr-Universit?t Bochum,Bochum,Germany;2.Institute of Mechanics,Ruhr-Universit?t Bochum,Bochum,Germany;3.Institute of Mechanics (CE),University of Stuttgart,Stuttgart,Germany;4.Stuttgart Research Center for Simulation Technology (SRC Sim Tech),Stuttgart,Germany |
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| Abstract: | This paper numerically investigates the slurry shield tunneling in fully saturated soils with different hydraulic conductivities in short- and long-term scales. A fully coupled hydromechanical three-dimensional model that accounts for the main aspects of tunnel construction and the hydromechanical interactions due to tunneling process is developed. An elasto-plastic constitutive model obeying a double hardening rule, namely hardening soil model, is employed in the numerical simulations. The research mainly focuses on assessing the influence of soil hydraulic conductivity and the method to simulate backfill grouting in the tail void on the evolution of ground subsidence, excess pore water pressure and lining forces. Two different consolidation schemes have been taken into account to computationally address the tunnel construction in soil with low and high hydraulic conductivities. In addition, different methods are employed to simulate the tail void grouting as a hydromechanical boundary condition and to study its effects on the model responses. Finally, the influences of infiltration of the fluidized particles of grouting suspension into the surrounding soil and its corresponding time–space hydraulic conductivity evolution on the displacements and lining forces are studied. |
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