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MODERN TUNNELLING TECHNOLOGY 2024, Vol. 61 Issue (4) :112-118    DOI:
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Study on Mechanical Model for Longitudinal Deformation of Existing Shield Tunnel Caused by New Tunnel Over-crossing Construction
(1. Henan Rail Transit Research Institute Co., Ltd., Zhengzhou 450000;2. Henan Kaifeng Intercity Railway Investment Co., Ltd.,Kaifeng 475000;3. Henan RClC New Infrastructure Co., Ltd., Zhengzhou 450000;4. School of Civil Engineering, Beijing Jiaotong University, Beijing 100044)
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Abstract Based on the pressure arch theory, the construction of a new tunnel crossing over an existing shield tunnel is divided into three modes according to the relative position of the new tunnel and the pressure arch. Corresponding mechanical calculation models are established, and the applicable deformation control equations and solution methods for the models are provided. The models are then validated using measured data from the new Caoqiao Station of the Beijing Daxing Airport Line, which crosses over the existing shield tunnel of Line 10. The results show that the proposed models have high accuracy, with the calculated maximum vertical displacement of the shield tunnel being closer to the measured values compared to traditional models, thereby improving the accuracy of longitudinal deformation prediction for shield tunnels.
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LIU Bo1
2 ZHENG Jinlei1
3
4 ZHANG Zhao1 MA Jianfei4
KeywordsOver-crossing construction   Shield tunnel   Foundation beam   Longitudinal deformation   Uplift     
Abstract: Based on the pressure arch theory, the construction of a new tunnel crossing over an existing shield tunnel is divided into three modes according to the relative position of the new tunnel and the pressure arch. Corresponding mechanical calculation models are established, and the applicable deformation control equations and solution methods for the models are provided. The models are then validated using measured data from the new Caoqiao Station of the Beijing Daxing Airport Line, which crosses over the existing shield tunnel of Line 10. The results show that the proposed models have high accuracy, with the calculated maximum vertical displacement of the shield tunnel being closer to the measured values compared to traditional models, thereby improving the accuracy of longitudinal deformation prediction for shield tunnels.
KeywordsOver-crossing construction,   Shield tunnel,   Foundation beam,   Longitudinal deformation,   Uplift     
Cite this article:   
LIU Bo1, 2 ZHENG Jinlei1, 3 etc .Study on Mechanical Model for Longitudinal Deformation of Existing Shield Tunnel Caused by New Tunnel Over-crossing Construction[J]  MODERN TUNNELLING TECHNOLOGY, 2024,V61(4): 112-118
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