International Journal of Earth Sciences and Engineering

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An Elastic-Plastic Solution for a Circular Pressure Tunnel with Liner Based on a New Model


Affiliations
1 College of Information and Electrical Engineering, China Agricultural University, Beijing-100083, China
2 Beijing Canbao Architecture Design Institute, Beijing-100000, China
3 School of Civil Engineering, Ludong University, Yan'tai-264025, China
4 Research Center of Geotechnical and Structural Engineering, Shandong University, Ji’nan-250061, China
5 School of Civil Engineering, Shandong Jianzhu University, Ji'nan-250101, China
 

The elastic-plastic problem for a circular pressured tunnel with liner is furthermore investigated. A new mechanical model to model the construction sequence of the tunnel structure is applied. Based on the linear Mohr-Coulomb yield criterion, for the case that the yield range is in the surrounding rock is dealt with. With consideration of boundary conditions along the internal and external boundaries of the liner and the interface between the elastic and yield regions, the stress solutions for the total field, and the relations to determinate the support pressure and the yield radius are given. Also, the confinement of the liner to the surrounding rock and the effect of the internal pressure on the surrounding rock pressure and the yield range are considered in the above-mentioned analyses. Numerical results indicate that the internal pressure has the same action as the support. And that with the increase of the relative liner rigidity the support pressure is increased. However, the radial displacement along the tunnel wall and the yield radius may decrease with increasing the relative liner rigidity. Moreover, when the surrounding rock is in elastic-plastic state, the variation ranges of the internal pressure, the support pressure, the radial along the tunnel wall and the yield radius decrease with increasing the relative liner rigidity. The presented solutions contain previously known result as the special cases, for example, classical Fenner's solution.

Keywords

Tunne, Elastoplasticity, Liner, Mohr-Coulomb Yield Criterion.
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  • An Elastic-Plastic Solution for a Circular Pressure Tunnel with Liner Based on a New Model

Abstract Views: 173  |  PDF Views: 140

Authors

Yun-Fei Ma
College of Information and Electrical Engineering, China Agricultural University, Beijing-100083, China
Hao Qin
Beijing Canbao Architecture Design Institute, Beijing-100000, China
Chun-Mei Zheng
School of Civil Engineering, 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
Yan Liu
School of Civil Engineering, Ludong University, Yan'tai-264025, China
Wan-Tao Ding
Research Center of Geotechnical and Structural Engineering, Shandong University, Ji’nan-250061, China
Xiao-Jin Li
School of Civil Engineering, Shandong Jianzhu University, Ji'nan-250101, China
Tong-Shun Wang
School of Civil Engineering, Ludong University, Yan'tai-264025, China
Ting-Peng Zhang
School of Civil Engineering, Ludong University, Yan'tai-264025, China

Abstract


The elastic-plastic problem for a circular pressured tunnel with liner is furthermore investigated. A new mechanical model to model the construction sequence of the tunnel structure is applied. Based on the linear Mohr-Coulomb yield criterion, for the case that the yield range is in the surrounding rock is dealt with. With consideration of boundary conditions along the internal and external boundaries of the liner and the interface between the elastic and yield regions, the stress solutions for the total field, and the relations to determinate the support pressure and the yield radius are given. Also, the confinement of the liner to the surrounding rock and the effect of the internal pressure on the surrounding rock pressure and the yield range are considered in the above-mentioned analyses. Numerical results indicate that the internal pressure has the same action as the support. And that with the increase of the relative liner rigidity the support pressure is increased. However, the radial displacement along the tunnel wall and the yield radius may decrease with increasing the relative liner rigidity. Moreover, when the surrounding rock is in elastic-plastic state, the variation ranges of the internal pressure, the support pressure, the radial along the tunnel wall and the yield radius decrease with increasing the relative liner rigidity. The presented solutions contain previously known result as the special cases, for example, classical Fenner's solution.

Keywords


Tunne, Elastoplasticity, Liner, Mohr-Coulomb Yield Criterion.