Effect of earthquake on pressure arch above the tunnel

Effect of earthquake on pressure arch above the tunnel

In this paper, the changes in the pressure arch height above the tunnels subject to earthquake were analyzed by using theoretical, numerical, and experimental ways, respectively, and then, a corresponding formula was derived. The phenomenon of stress rotation and pressure arch around the tunnel unde...

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Bibliographic Details
Published in:Lithosphere Vol. 2021; no. Special 7
Main Authors: Sun Changxin, Sun Changxin, Jiang Tong, Jiang Tong, Lv Xiaochun, Lv Xiaochun, Zou Mingjun, Zou Mingjun
Format: Journal Article
Language:English
Published: GeoScienceWorld 2022
Subjects:
design
earthquakes
Engineering geology
equations
experimental studies
failures
numerical models
physical models
pressure
pressure arches
rock mechanics
seismic response
seismicity
shaking tables
simulation
slope stability
stress
tunnels
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Summary:In this paper, the changes in the pressure arch height above the tunnels subject to earthquake were analyzed by using theoretical, numerical, and experimental ways, respectively, and then, a corresponding formula was derived. The phenomenon of stress rotation and pressure arch around the tunnel under earthquake was found by illustrating the stress vector around tunnel. The force transmission method was used to analyze the change in pressure arch height of rectangular, horseshoe-shaped, and circular tunnels before and after earthquake, and then, a new method was presented to determine the pressure arch height above the tunnel under earthquake according to stress changes in surrounding rock. Then, the two methods were jointly used to analyze the pressure arch height above the tunnel. The results show that the tunnel shape has great effect on the shape of pressure arch, and the pressure arch height of deep tunnel varies little with depth. The changes in the shape and height of tunnel pressure arch before and after earthquake obtained from theoretical analysis and numerical simulation were finally verified by shaking table model tests. The research results in this paper may provide practical significance in seismic design of tunnel structures.
ISSN:1941-8264
1947-4253
DOI:10.2113/2022/9576745