地铁列车振动作用下盾构隧道及周边土体动力响应规律

王晓睿; 秦文茜; 于怀昌

doi:10.3799/dqkx.2023.075

Volume 49 Issue 12

Dec. 2024

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Wang Xiaorui, Qin Wenqian, Yu Huaichang, 2024. Research on Dynamic Response Law of Shield Tunnel and Surrounding Soil Based on Vibration Action of Subway Train. Earth Science, 49(12): 4673-4689. doi: 10.3799/dqkx.2023.075

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Wang Xiaorui, Qin Wenqian, Yu Huaichang, 2024. Research on Dynamic Response Law of Shield Tunnel and Surrounding Soil Based on Vibration Action of Subway Train. Earth Science, 49(12): 4673-4689. doi: 10.3799/dqkx.2023.075

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Research on Dynamic Response Law of Shield Tunnel and Surrounding Soil Based on Vibration Action of Subway Train

doi: 10.3799/dqkx.2023.075

School of Earth Science and Engineering, North China University of Water Resources and Electric Power, Zhengzhou 450045, China

Received Date: 2023-04-07
Available Online: 2025-01-09
Publish Date: 2024-12-25

Abstract

Abstract

In order to study the influence of the dynamic response of the soil around the tunnel under the train load in the small radius curve section, the pore water pressure and water level were measured in the field, and the numerical analysis was performed using the finite element software MIDAS. The results show that the vibration load is the important reason for the change of pore water pressure during the operation of the tunnel, the deeper the hole pressure gradually decreases; the closer to the tunnel, the more sensitive is the response to the train vibration dynamic response, the change amplitude and rate of pore water pressure and vertical deformation peak of the water in the soil are larger; the dynamic response of the soil at the bottom of the small radius curve tunnel increases with the train speed; the superpore water pressure generated by the soil is gradually dissipated, it can be predicted that the deformation damage to the surrounding soil with the train vibration.
- small radius curve,
- vibrational load,
- dynamic response,
- pore water pressure,
- numerical analysis,
- engineering geology

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References(17)

References

Bian, X. C., Jiang, H. G., Chang, C., et al., 2015. Track and Ground Vibrations Generated by High-Speed Train Running on Ballastless Railway with Excitation of Vertical Track Irregularities. Soil Dynamics and Earthquake Engineering, 76: 29-43. https://doi.org/10.1016/j.soildyn.2015.02.009

Dai, L. F. B., Wang, G. D., Gao, B., 2012. Study of Sand Liquefaction under Vibration Load of High Speed Train. Chinese Journal of Underground Space and Engineering, 8(2): 434-438 (in Chinese with English abstract).

Lei, H. Y., Yang, X. N., Xu, Y. G., et al., 2021. Experiment of Dynamic Characteristics of Saturated Remolded Clay under Intermittent Cyclic Loading. Journal of Tianjin University (Science and Technology), 54(8): 799-806(in Chinese with English abstract).

Ren, L., Zhu, Y., Cui, T. L., 2021. Study on Protection Scheme of Shield Tunnel Passing through Railway Bridge Pile at a Short Distance. Earth Science, 46(6): 2278-2286(in Chinese with English abstract).

Shi, Y. F., Cao, C. W., Tan, Y. F., et al., 2022. Study on Dynamic Response and Long-Term Settlement of Water-Saturated Weathered Soft Rocks at the Base of Subway Tunnels. Modern Tunnelling Technology, 59(2): 86-95(in Chinese with English abstract).

Wang, X. R., Cai, S., Yang, W., et al., 2022. Influence of Existing Buildings on Construction of Earth Pressure Shield in Extremely Soft Rock Stratum. Earth Science, 47(4): 1483-1491(in Chinese with English abstract).

Wang, X. R., Jiang, H. J., Zhu, K., et al., 2019. Research on Ground Settlement Laws of Urban Subway Tunnel Construction Process Based on Earth Pressure Shield. Earth Science, 44(12): 4293-4298(in Chinese with English abstract).

Xu, Y., Xu, J. L., Dai, J., et al., 2018. Study of Pore Water Pressure and Deformation Characteristics of Soil below Tunnel under Vibration Load of Metro Trains. Tunnel Construction, 38(11): 1785-1792 (in Chinese with English abstract).

Zhang, X. L., Yi, R. B., Ji, Z. P., et al., 2023. Property Evolution and Liquefaction Stage Characteristics of Saturated Sand under Cyclic Loading. Engineering Mechanics, 40(2): 157-167(in Chinese with English abstract).

戴林发宝, 王广地, 高波, 2012. 高速列车振动下隧道周边砂土液化研究. 地下空间与工程学报, 8(2): 434-438.

雷华阳, 杨晓楠, 许英刚, 等, 2021. 间歇性循环荷载条件下饱和重塑黏土的动力特性试验. 天津大学学报(自然科学与工程技术版), 54(8): 799-806.

任磊, 朱颖, 崔天麟, 2021. 盾构超近距离侧穿铁路桥桩保护方案探讨. 地球科学, 46(6): 2278-2286. doi: 10.3799/dqkx.2021.041

石钰锋, 曹成威, 谈亦帆, 等, 2022. 地铁隧道基底饱水风化软岩动力响应及长期沉降研究. 现代隧道技术, 59(2): 86-95.

王晓睿, 蔡松, 杨伟, 等, 2022. 既有建筑对极软岩地层中土压盾构的施工影响. 地球科学, 47(4): 1483-1491. doi: 10.3799/dqkx.2020.326

王晓睿, 姜洪建, 朱坤, 等, 2019. 基于土压盾构的城市地铁隧道构筑过程地表沉降规律. 地球科学, 44(12): 4293-4298. doi: 10.3799/dqkx.2019.269

徐阳, 徐佳琳, 戴金, 等, 2018. 地铁列车振动荷载作用下隧道底部土层孔隙水压力及变形特性研究. 隧道建设(中英文), 38(11): 1785-1792.

张鑫磊, 衣睿博, 纪展鹏, 等, 2023. 循环荷载作用下饱和砂土的性质演化规律及液化阶段性特征. 工程力学, 40(2): 157-167.

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Research on Dynamic Response Law of Shield Tunnel and Surrounding Soil Based on Vibration Action of Subway Train

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