Influence of Water Inrush from Excavation Surface on the Stress and Deformation of Tunnel-Forming Structure at the Launching-Arrival Stage of Subway Shield

Influence of Water Inrush from Excavation Surface on the Stress and Deformation of Tunnel-Forming Structure at the Launching-Arrival Stage of Subway Shield

The launching-arrival stage of the shield is the most dangerous construction stage in subway construction. During the conversion process of the soil and air medium in the shield machine, water inrush at the excavation surface often occurs because of the effect of groundwater. Previous research has f...

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Main Authors: Shusheng Lv, Wen Liu, Shihong Zhai, Peishuai Chen
Format: Article
Language:English
Published: Hindawi Limited 2019-01-01
Series:Advances in Civil Engineering
Online Access:http://dx.doi.org/10.1155/2019/6989730
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spelling doaj-4debfbaad5354bba96bd9ba52111c0d22020-11-24T21:50:44ZengHindawi LimitedAdvances in Civil Engineering1687-80861687-80942019-01-01201910.1155/2019/69897306989730Influence of Water Inrush from Excavation Surface on the Stress and Deformation of Tunnel-Forming Structure at the Launching-Arrival Stage of Subway ShieldShusheng Lv0Wen Liu1Shihong Zhai2Peishuai Chen3CCCC Second Harbor Engineering Co., Ltd., No. 11 Jinyin Lake Road, Dongxihu District, Wuhan 430074, ChinaCCCC Second Harbor Engineering Co., Ltd., No. 11 Jinyin Lake Road, Dongxihu District, Wuhan 430074, ChinaKey Laboratory of Large-Span Bridge Construction Technology for Transportation Industry, No. 11 Jinyin Lake Road, Dongxihu District, Wuhan 430074, ChinaCCCC Highway Bridges National Engineering Research Centre Co., Ltd., No. 11 Jinyin Lake Road, Dongxihu District, Wuhan 430074, ChinaThe launching-arrival stage of the shield is the most dangerous construction stage in subway construction. During the conversion process of the soil and air medium in the shield machine, water inrush at the excavation surface often occurs because of the effect of groundwater. Previous research has focused on the overall stress and deformation of existing tunnels caused by water inrush from the excavation face of the shield machine excavation stage. However, the stress and deformation states of the segments and anchors at different assembly locations of the tunnel, as well as the interaction between the soil reinforcement region and the segments and anchors in the launching-arrival stage have not been considered in previous studies. In this study, the inrush model of the launching-arrival stage of the subway shield was established by utilizing the equivalent refinement modeling technology and ABAQUS simulation analysis with consideration of the fluid-solid coupling effect of water and soil to study the influences of different water head differences on the mechanical and deformation properties of segments and anchors in shield construction under the conditions of water inrush on the excavation surface. The results showed that the water inflow from the tunnel excavation surface caused significant surface subsidence at the tunnel portal, vertical convergence at the cross section of the shield tunnel, and significant increases in the axial and shear forces on the bolt. In addition, based on the existing subway regulation, combined with the simulation results of soil reinforcement measures at different depths, the emergency control criterion for controlling water inrush on the excavation surface was established by using the depth of soil reinforcement. The minimum depth of the reinforced soil from the ground surface at 15 m is recommended to ensure construction safety of the subway shield at the launching-arrival stage.http://dx.doi.org/10.1155/2019/6989730
collection DOAJ
language English
format Article
sources DOAJ
author Shusheng Lv
Wen Liu
Shihong Zhai
Peishuai Chen
spellingShingle Shusheng Lv
Wen Liu
Shihong Zhai
Peishuai Chen
Influence of Water Inrush from Excavation Surface on the Stress and Deformation of Tunnel-Forming Structure at the Launching-Arrival Stage of Subway Shield
Advances in Civil Engineering
author_facet Shusheng Lv
Wen Liu
Shihong Zhai
Peishuai Chen
author_sort Shusheng Lv
title Influence of Water Inrush from Excavation Surface on the Stress and Deformation of Tunnel-Forming Structure at the Launching-Arrival Stage of Subway Shield
title_short Influence of Water Inrush from Excavation Surface on the Stress and Deformation of Tunnel-Forming Structure at the Launching-Arrival Stage of Subway Shield
title_full Influence of Water Inrush from Excavation Surface on the Stress and Deformation of Tunnel-Forming Structure at the Launching-Arrival Stage of Subway Shield
title_fullStr Influence of Water Inrush from Excavation Surface on the Stress and Deformation of Tunnel-Forming Structure at the Launching-Arrival Stage of Subway Shield
title_full_unstemmed Influence of Water Inrush from Excavation Surface on the Stress and Deformation of Tunnel-Forming Structure at the Launching-Arrival Stage of Subway Shield
title_sort influence of water inrush from excavation surface on the stress and deformation of tunnel-forming structure at the launching-arrival stage of subway shield
publisher Hindawi Limited
series Advances in Civil Engineering
issn 1687-8086
1687-8094
publishDate 2019-01-01
description The launching-arrival stage of the shield is the most dangerous construction stage in subway construction. During the conversion process of the soil and air medium in the shield machine, water inrush at the excavation surface often occurs because of the effect of groundwater. Previous research has focused on the overall stress and deformation of existing tunnels caused by water inrush from the excavation face of the shield machine excavation stage. However, the stress and deformation states of the segments and anchors at different assembly locations of the tunnel, as well as the interaction between the soil reinforcement region and the segments and anchors in the launching-arrival stage have not been considered in previous studies. In this study, the inrush model of the launching-arrival stage of the subway shield was established by utilizing the equivalent refinement modeling technology and ABAQUS simulation analysis with consideration of the fluid-solid coupling effect of water and soil to study the influences of different water head differences on the mechanical and deformation properties of segments and anchors in shield construction under the conditions of water inrush on the excavation surface. The results showed that the water inflow from the tunnel excavation surface caused significant surface subsidence at the tunnel portal, vertical convergence at the cross section of the shield tunnel, and significant increases in the axial and shear forces on the bolt. In addition, based on the existing subway regulation, combined with the simulation results of soil reinforcement measures at different depths, the emergency control criterion for controlling water inrush on the excavation surface was established by using the depth of soil reinforcement. The minimum depth of the reinforced soil from the ground surface at 15 m is recommended to ensure construction safety of the subway shield at the launching-arrival stage.
url http://dx.doi.org/10.1155/2019/6989730
work_keys_str_mv AT shushenglv influenceofwaterinrushfromexcavationsurfaceonthestressanddeformationoftunnelformingstructureatthelaunchingarrivalstageofsubwayshield
AT wenliu influenceofwaterinrushfromexcavationsurfaceonthestressanddeformationoftunnelformingstructureatthelaunchingarrivalstageofsubwayshield
AT shihongzhai influenceofwaterinrushfromexcavationsurfaceonthestressanddeformationoftunnelformingstructureatthelaunchingarrivalstageofsubwayshield
AT peishuaichen influenceofwaterinrushfromexcavationsurfaceonthestressanddeformationoftunnelformingstructureatthelaunchingarrivalstageofsubwayshield
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