Numerical study on interaction of normal fault with underground tunnels

Document Type : Research Paper

Authors

1 School of Civil Engineering, Iran University of Science and Technology, Tehran, Iran

2 Dept. of Civil and Environmental Engineering, Amirkabir University of Technology, Tehran, Iran

Abstract

In many cases, tunnels that are considered critical underground infrastructure for urban transportation are built in high seismicity areas and active fault zones. Fault displacements during earthquakes may interact with sub-surface structures leading destructions. Recent earthquakes, such as the 1999 earthquakes in Turkey and Taiwan, revealed that by avoiding construction in the fault zone, the structures are not completely safe for fault threats. Therefore, it is necessary to evaluate the interaction mechanism between structures and fault rupture for effective design to reduce the hazards associated with surface faulting. Verified finite element modeling is used in this study to investigate normal fault-tunnel interaction. The effect of different parameters such as horizontal tunnel distance relative to rupture path in free field condition, tunnel depth, tunnel rigidity, and fault angle on fault–tunnel interaction are studied. The results indicated that the tunneling in the path of fault rupture causes a diversion of rupture path. The burial depth of the tunnel and its diameter are effective parameters in the propagation of the shear zone in the sand layer and surface deformations. With increasing the tunnel depth, the rupture path inclines more, and the shear zone is extended over a wider area. Comparison of numerical results demonstrated that surface displacement in normal fault of dip angle 45° is higher than 60°.

Keywords

References

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History

  • Receive Date: 19 September 2019
  • Revise Date: 01 November 2019
  • Accept Date: 19 November 2019

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