Numerical analysis of mechanical response in bridge and pile foundations due to shield cutting of residual piles

During shield tunneling, interactions with existing structures, such as pile foundations and bridges, are frequently encountered, leading to a growing implementation of shield cutting techniques. This study utilizes a metro tunnel project crossing under a ring expressway bridge in a city in Northeas...

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Veröffentlicht in:	Scientific reports Jg. 15; H. 1; S. 13249 - 20
Hauptverfasser:	Li, Yongbo, Wu, Zhiqiang, Zhang, Wenchao
Format:	Journal Article
Sprache:	Englisch
Veröffentlicht:	London Nature Publishing Group UK 17.04.2025 Nature Publishing Group Nature Portfolio
Schlagworte:	639/166/986 639/166/988 Bridge piles Deformation EPB shield machine Finite difference method FLAC3D Ground loss ratio Humanities and Social Sciences Mathematical models multidisciplinary Numerical analysis Numerical simulation Piles Science Science (multidisciplinary) EPB shield machine FLAC Numerical simulation Ground loss ratio Bridge piles FLAC3D
ISSN:	2045-2322, 2045-2322
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Abstract	During shield tunneling, interactions with existing structures, such as pile foundations and bridges, are frequently encountered, leading to a growing implementation of shield cutting techniques. This study utilizes a metro tunnel project crossing under a ring expressway bridge in a city in Northeast China to develop a refined three-dimensional finite difference method (FDM) model. The 3D FDM model investigates the mechanical responses of existing pile foundations and the bridge structure due to shield cutting through residual pile foundations. The proposed numerical model is validated against field monitoring data. The simulation results show that the primary mechanical response of the existing pile foundations to shield tunneling is horizontal deformation, which decreases with increasing distance from the tunnel axis. In zones containing residual piles, tunnel crown settlement exhibits a wavy pattern, with lower settlement values compared to areas without residual piles. In contrast, bridge structure deformation remains minimal, with final deformation values below standard values. To comprehensively evaluate the effects of shield cutting through residual piles, the study quantitatively examines stratum disturbances using the ground loss ratio as an indicator. Results reveal that ground loss ratios surrounding residual pile foundations exceed 0.5%, reflecting a substantial influence. A parametric analysis underscores the critical role of ground loss ratios in influencing both bridge structure deformation and tunnel settlement.
AbstractList	During shield tunneling, interactions with existing structures, such as pile foundations and bridges, are frequently encountered, leading to a growing implementation of shield cutting techniques. This study utilizes a metro tunnel project crossing under a ring expressway bridge in a city in Northeast China to develop a refined three-dimensional finite difference method (FDM) model. The 3D FDM model investigates the mechanical responses of existing pile foundations and the bridge structure due to shield cutting through residual pile foundations. The proposed numerical model is validated against field monitoring data. The simulation results show that the primary mechanical response of the existing pile foundations to shield tunneling is horizontal deformation, which decreases with increasing distance from the tunnel axis. In zones containing residual piles, tunnel crown settlement exhibits a wavy pattern, with lower settlement values compared to areas without residual piles. In contrast, bridge structure deformation remains minimal, with final deformation values below standard values. To comprehensively evaluate the effects of shield cutting through residual piles, the study quantitatively examines stratum disturbances using the ground loss ratio as an indicator. Results reveal that ground loss ratios surrounding residual pile foundations exceed 0.5%, reflecting a substantial influence. A parametric analysis underscores the critical role of ground loss ratios in influencing both bridge structure deformation and tunnel settlement.During shield tunneling, interactions with existing structures, such as pile foundations and bridges, are frequently encountered, leading to a growing implementation of shield cutting techniques. This study utilizes a metro tunnel project crossing under a ring expressway bridge in a city in Northeast China to develop a refined three-dimensional finite difference method (FDM) model. The 3D FDM model investigates the mechanical responses of existing pile foundations and the bridge structure due to shield cutting through residual pile foundations. The proposed numerical model is validated against field monitoring data. The simulation results show that the primary mechanical response of the existing pile foundations to shield tunneling is horizontal deformation, which decreases with increasing distance from the tunnel axis. In zones containing residual piles, tunnel crown settlement exhibits a wavy pattern, with lower settlement values compared to areas without residual piles. In contrast, bridge structure deformation remains minimal, with final deformation values below standard values. To comprehensively evaluate the effects of shield cutting through residual piles, the study quantitatively examines stratum disturbances using the ground loss ratio as an indicator. Results reveal that ground loss ratios surrounding residual pile foundations exceed 0.5%, reflecting a substantial influence. A parametric analysis underscores the critical role of ground loss ratios in influencing both bridge structure deformation and tunnel settlement. Abstract During shield tunneling, interactions with existing structures, such as pile foundations and bridges, are frequently encountered, leading to a growing implementation of shield cutting techniques. This study utilizes a metro tunnel project crossing under a ring expressway bridge in a city in Northeast China to develop a refined three-dimensional finite difference method (FDM) model. The 3D FDM model investigates the mechanical responses of existing pile foundations and the bridge structure due to shield cutting through residual pile foundations. The proposed numerical model is validated against field monitoring data. The simulation results show that the primary mechanical response of the existing pile foundations to shield tunneling is horizontal deformation, which decreases with increasing distance from the tunnel axis. In zones containing residual piles, tunnel crown settlement exhibits a wavy pattern, with lower settlement values compared to areas without residual piles. In contrast, bridge structure deformation remains minimal, with final deformation values below standard values. To comprehensively evaluate the effects of shield cutting through residual piles, the study quantitatively examines stratum disturbances using the ground loss ratio as an indicator. Results reveal that ground loss ratios surrounding residual pile foundations exceed 0.5%, reflecting a substantial influence. A parametric analysis underscores the critical role of ground loss ratios in influencing both bridge structure deformation and tunnel settlement. During shield tunneling, interactions with existing structures, such as pile foundations and bridges, are frequently encountered, leading to a growing implementation of shield cutting techniques. This study utilizes a metro tunnel project crossing under a ring expressway bridge in a city in Northeast China to develop a refined three-dimensional finite difference method (FDM) model. The 3D FDM model investigates the mechanical responses of existing pile foundations and the bridge structure due to shield cutting through residual pile foundations. The proposed numerical model is validated against field monitoring data. The simulation results show that the primary mechanical response of the existing pile foundations to shield tunneling is horizontal deformation, which decreases with increasing distance from the tunnel axis. In zones containing residual piles, tunnel crown settlement exhibits a wavy pattern, with lower settlement values compared to areas without residual piles. In contrast, bridge structure deformation remains minimal, with final deformation values below standard values. To comprehensively evaluate the effects of shield cutting through residual piles, the study quantitatively examines stratum disturbances using the ground loss ratio as an indicator. Results reveal that ground loss ratios surrounding residual pile foundations exceed 0.5%, reflecting a substantial influence. A parametric analysis underscores the critical role of ground loss ratios in influencing both bridge structure deformation and tunnel settlement.
ArticleNumber	13249
Author	Li, Yongbo Zhang, Wenchao Wu, Zhiqiang
Author_xml	– sequence: 1 givenname: Yongbo surname: Li fullname: Li, Yongbo organization: Jiangsu College of Engineering and Technology – sequence: 2 givenname: Zhiqiang surname: Wu fullname: Wu, Zhiqiang organization: Department of Architecture and Engineering, Nantong Vocational University – sequence: 3 givenname: Wenchao surname: Zhang fullname: Zhang, Wenchao email: anwei1256@126.com organization: Department of Architecture and Engineering, Nantong Vocational University, Jiangsu Shipping College
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Snippet	During shield tunneling, interactions with existing structures, such as pile foundations and bridges, are frequently encountered, leading to a growing... Abstract During shield tunneling, interactions with existing structures, such as pile foundations and bridges, are frequently encountered, leading to a growing...
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SubjectTerms	639/166/986 639/166/988 Bridge piles Deformation EPB shield machine Finite difference method FLAC3D Ground loss ratio Humanities and Social Sciences Mathematical models multidisciplinary Numerical analysis Numerical simulation Piles Science Science (multidisciplinary)
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Title	Numerical analysis of mechanical response in bridge and pile foundations due to shield cutting of residual piles
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