International Journal of Earth Sciences and Engineering

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Elastic Analyses for a Circular Pressured Tunnel with Liner Based on a New Model


Affiliations
1 Capital Construction Department, Ludong University, Yan’tai-264025, China
2 School of Civil Engineering, Ludong University, Yan’tai-264025, China
 

The support of underground structures must be appropriately designed. New analytical solutions for a deep tunnel with liner in isotropic geomaterial have been obtained for a hydrostatic-pressure condition by using the complex potential theory proposed by Muskhelishvili. The construction sequence of the tunnel is properly modeled in the analytical solution. The sensitive analyses indicate that the flexible support is favorable to decrease the support pressure and the installation of the liner must be well-timed towards the different situations. And that the liner rigidity is increased and the liner is installed as early as possible, which both are advantageous to reduce the surrounding geomaterial deformation. The analyses also show that the structure has a strong dependency on the liner thickness. The present solutions contain previously known results as the special cases.

Keywords

Tunnel, Complex Potential Theory, Liner, Elasticity.
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  • Elastic Analyses for a Circular Pressured Tunnel with Liner Based on a New Model

Abstract Views: 194  |  PDF Views: 118

Authors

Xiang-Hua Chu
Capital Construction Department, Ludong University, Yan’tai-264025, China
Ming-Bin Wang
School of Civil Engineering, Ludong University, Yan’tai-264025, China
Ke-Zhi Song
School of Civil Engineering, Ludong University, Yan’tai-264025, China
Chun-Mei Zhen
School of Civil Engineering, Ludong University, Yan’tai-264025, China

Abstract


The support of underground structures must be appropriately designed. New analytical solutions for a deep tunnel with liner in isotropic geomaterial have been obtained for a hydrostatic-pressure condition by using the complex potential theory proposed by Muskhelishvili. The construction sequence of the tunnel is properly modeled in the analytical solution. The sensitive analyses indicate that the flexible support is favorable to decrease the support pressure and the installation of the liner must be well-timed towards the different situations. And that the liner rigidity is increased and the liner is installed as early as possible, which both are advantageous to reduce the surrounding geomaterial deformation. The analyses also show that the structure has a strong dependency on the liner thickness. The present solutions contain previously known results as the special cases.

Keywords


Tunnel, Complex Potential Theory, Liner, Elasticity.