Thomas Kasper scite author profile

SUMMARYA three-dimensional finite element simulation model for shield-driven tunnel excavation is presented. The model takes into account all relevant components of the construction process (the soil and the ground water, the tunnel boring machine with frictional contact to the soil, the hydraulic jacks, the tunnel lining and the tail void grouting). The paper gives a detailed description of the model components and the stepwise procedure to simulate the construction process. The soil and the grout material are modelled as saturated porous media using a two-field finite element formulation. This allows to take into account the groundwater, the grouting pressure and the fluid interaction between the soil and slurry at the cutting face and between the soil and grout around the tail void. A Cam-Clay plasticity model is used to describe the material behaviour of cohesive soils. The cementitious grouting material in the tail void is modelled as an ageing elastic material with time-dependent stiffness and permeability. To allow for an automated computation of arbitrarily long and also curvilinear driving paths with suitable finite element meshes, the simulation procedure has been fully automated. The simulation of a tunnel advance in soft cohesive soil below the ground water table is presented and the results are compared with measurements taken from the literature.

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On the influence of face pressure, grouting pressure and TBM design in soft ground tunnelling

Kasper

Meschke

2006

Tunnelling and Underground Space Technology

167

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Lining design for the district heating tunnel in Copenhagen with steel fibre reinforced concrete segments

Kasper

Edvardsen

Wittneben

et al. 2008

Tunnelling and Underground Space Technology

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A modelling approach for joint rotations of segmental concrete tunnel linings

Tvede-Jensen

Faurschou

Kasper

2017

Tunnelling and Underground Space Technology

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A numerical study of the effect of soil and grout material properties and cover depth in shield tunnelling

Kasper

Meschke

2006

Computers and Geotechnics

122

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Thomas Kasper

A 3D finite element simulation model for TBM tunnelling in soft ground

On the influence of face pressure, grouting pressure and TBM design in soft ground tunnelling

Lining design for the district heating tunnel in Copenhagen with steel fibre reinforced concrete segments

A modelling approach for joint rotations of segmental concrete tunnel linings

A numerical study of the effect of soil and grout material properties and cover depth in shield tunnelling

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