Chinese Journal of Underground Space and Engineering >

2024 , Vol. 20 >Issue 6: 1798 - 1805

DOI: https://doi.org/10.20174/j.JUSE.2024.06.05

Correction of Peck Settlement Formula for Large Diameter Shield Construction in Upper Soft and Lower Hard Strata

  • Mei Yuan ,
  • Shi Wenyan ,
  • Zhou Dongbo ,
  • Wang Rong ,
  • Xu Wangyang
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  • 1. School of Civil Engineering, Xi'an University of Architecture and Technology, Xi'an 710055, P. R. China;
    2. Shaanxi Key Lab of Geotechnical and Underground Space Engineering, Xi'an University of Architecture and Technology, Xi'an 710055, P. R. China;
    3. School of Civil Engineering, Xi'an Traffic Engineering Institute, Xi'an 710300, P. R. China

Received date: 2024-04-22

  Online published: 2025-01-03

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Abstract

In order to reasonably predict the surface settlement caused by the construction of large-diameter slurry shield, this paper conducts regression analysis on the actual measured data in the field and studies the adaptability of Peck's formula in the prediction of settlement of large-diameter slurry shield, while introducing the correction factor α for the maximum surface settlement and the correction factor β for the width of the settlement trough to correct Peck's formula. The results show that: There is a significant difference between the measured settlement value of large diameter slurry shield tunneling in upper soft and lower hard composite strata and the predicted settlement value of Peck formula after linear regression. When the value of α is distributed between 0.1 and 0.5 and the value of β is distributed between 0.5 and 1.0, it can better reflect the surface settlement deformation of large diameter slurry shield in the upper soft and lower hard strata. By comparing and analyzing the correction coefficients of settlement trough for small diameter and large diameter shield tunnels, it can be seen that the variation range of the correction coefficient of settlement trough increases with the increase of the excavation cross-sectional area and the difference in soil properties of the excavation surface. The research results can expand the application scope of the Peck formula and provide a reference for the design and construction of large diameter shield tunnels.

Key words: Peck formula; surface settlement; upper soft lower hard strata; large diameter slurry shield; parameter correction

Cite this article

Mei Yuan , Shi Wenyan , Zhou Dongbo , Wang Rong , Xu Wangyang . Correction of Peck Settlement Formula for Large Diameter Shield Construction in Upper Soft and Lower Hard Strata[J]. Chinese Journal of Underground Space and Engineering, 2024 , 20(6) : 1798 -1805 . DOI: 10.20174/j.JUSE.2024.06.05

References

[1] 《中国公路学报》编辑部.中国交通隧道工程学术研究综述·2022[J]. 中国公路学报, 2022, 35(4): 1-40. (Editorial department of China journal of highway and transport. Review on China's traffic tunnel engineering research:2022[J]. China Journal of Highway and Transport, 2022, 35(4):1-40. (in Chinese))
[2] 戴志仁, 王俊, 胡瑞青, 等.城市轨道交通大直径盾构隧道若干关键技术[J]. 铁道工程学报, 2021, 38(6): 75-81. (Dai Zhiren, Wang Jun, Hu Ruiqing, et al. Key technologies for the application of large diameter shield tunnel in urban railway[J]. Journal of Railway Engineering Society, 2021, 38(6):75-81. (in Chinese))
[3] 万泽恩, 李数忱, 陈健, 等.大直径泥水盾构穿越复杂环境地表垂直变形研究[J]. 应用基础与工程科学学报, 2021, 29(2): 399-411. (Wan Zeen, Li Shuchen, Chen Jian, et al. Study on ground vertical deformation of large-diameter slurry shield tunneling in complicated environment[J]. Journal of Basic Science and Engineering, 2021, 29(2): 399-411. (in Chinese))
[4] Peck R B. Deep excavation and tunneling in soft ground[A]// 7th International Conference on Soil Mechanics and Foundation Engineering, Mexico, 1969: 225-290.
[5] 宋克志, 王梦恕, 孙谋.基于Peck公式的盾构隧道地表沉降的可靠性分析[J]. 北方交通大学学报, 2004, 28(4):30-33. (Song Kezhi, Wang Mengshu, Sun Mou. Reliability analysis of ground settlement with shield tunnel construction based on Peck formula[J]. Journal of Northern Jiaotong University, 2004, 28(4):30-33. (in Chinese))
[6] 胡长明, 冯超, 梅源, 等.西安富水砂层盾构施工Peck沉降预测公式改进[J]. 地下空间与工程学报, 2018, 14(1):176-181. (Hu Changming, Feng Chao, Mei Yuan, et al. Modifying of Peck's settlement calculation formula related to metro tunnel construction in Xi'an water-rich sand[J]. Chinese Journal of Underground Space and Engineering, 2018, 14(1):176-181. (in Chinese))
[7] 贾宝新, 孙傲, 陈浩, 等.基于Peck公式铁路隧道下穿既有公路隧道路基沉降规律分析[J]. 公路, 2018, 63(7):318-323. (Jia Baoxin, Sun Ao, Chen Hao, et al. Tunnel underpass of existing highway tunnel based on Peck formula[J]. Highway, 2018, 63(7):318-323. (in Chinese))
[8] 刘俊杰, 刘俊伟, 任晓敏, 等.土岩复合地层隧道开挖地表沉降Peck公式修正[J]. 河南理工大学学报(自然科学版), 2022, 41(2):171-177. (Liu Junjie, Liu Junwei, Ren Xiaomin, et al. Modification pf Peck formula for ground settlement caused by shield tunneling in soil-rock composite stratum[J]. Journal of Henan Polytechnic University(Natural Science), 2022, 41(2):171-177. (in Chinese))
[9] 田均举, 朱坤, 蔡松, 等.基于郑州地铁下穿南水北调干渠的Peck公式反演分析[J]. 安全与环境工程, 2021, 28(2):109-113, 132. (Tian Junju, Zhu Kun, Cai Song, et al. Inversion analysis of Peck formula based on Zhengzhou subway running down the main channel of south-to-north water transfer[J]. Safety and Environmental Engineering, 2021, 28(2):109-113, 132. (in Chinese))
[10] 刘金慧, 侯铭垒, 丁万涛.哈尔滨粉质粘土地层隧道沉降规律[J]. 科学技术与工程, 2019, 19(15):316-321. (Liu Jinhui, HouMinglei, Ding Wantao. Settlement rule of tunnel in Harbin silty clay soil stratum[J]. Science Technology and Engineering, 2019, 19(15):316-321. (in Chinese))
[11] 师刚, 袁浩旭, 张澄玄, 等.基于Peck公式的双线隧道地面沉降模型及参数研究[J]. 城市轨道交通研究, 2022, 25(1):161-165. (Shi Gang, Yuan Haoxu, Zhang Chengxuan, et al. Study on ground settlement model and parameters of twin-line tunnel based on Peck formula[J]. Urban Mass Transit, 2022, 25(1):161-165. (in Chinese))
[12] 姚爱军, 卢健, 邱忠旺, 等.土岩复合地层中地铁施工Peck沉降预测公式改进[J]. 铁道建筑, 2016(6):83-87. (Yao Aijun, Lu Jian, Qiu Zhongwang, et al. Improving of Peck's settlement calculation formula related to metro tunnel construction in soil-rock composite stratum[J]. Railway Engineering, 2016(6):83-87. (in Chinese))
[13] 白海卫, 宋守信, 王剑晨.Peck公式在双线盾构隧道施工地层变形中的适应性分析[J]. 北京交通大学学报, 2015, 39(3):30-34. (Bai Haiwei, Song Shouxin, Wang Jianchen. An adaptability study of peck formula applied to predicting ground settlements induced by double shield tunneling[J]. Journal of Beijing Jiaotong University, 2015, 39(3):30-34. (in Chinese))
[14] 秦拥军, 孟建宇, 谢良甫, 等.基于灰色关联理论的Peck法隧道地表移动参数影响研究[J]. 城市轨道交通研究, 2020, 23(6):28-31. (Qin Yongjun, Meng Jianyu, Xie Liangfu, et al. Surface movement parameters of Peck method tunnel based on gray relational theory[J]. Urban Mass Transit, 2020, 23(6):28-31. (in Chinese))
[15] 张运强, 曹文贵, 周苏华, 等. 基于Peck公式的盾构隧道施工引起的地层三维沉降预测[J]. 铁道科学与工程学报, 2021,18(1):153-161. (Zhang Yuanqiang, Cao Wengui, Zhou Suhua, et al. Prediction of three-dimensional subface and subsurface settlement caused by shield tunnelling based on Peck formula[J]. Journal of Railway Science and Engineering, 2021,18(1):153-161. (in Chinese))
[16] 郑馨, 麻凤海.长春地层地铁隧道施工的Peck公式改进[J]. 地下空间与工程学报, 2017,13(3):732-736. (Zheng Xin, Ma Fenghai. Improvement of Peck formula in subway construction in Changchun[J]. Chinese Journal of Underground Space and Engineering, 2017,13(3):732-736. (in Chinese))
[17] 姚爱军, 赵强, 管江, 等. 基于北京地层地铁隧道施工的Peck公式的改进[J]. 地下空间与工程学报, 2010, 6(4):789-793. (Yao Aijun, Zhao Qiang, Guan Jiang, et al. Improvement of Peck formula in subway construction in Beijing[J]. Chinese Journal of Underground Space and Engineering, 2010, 6(4):789-793. (in Chinese))
[18] 吴锋波,郑卫强,齐剑峰,等.地铁双线盾构区间地表横向沉降槽参数分析[J].地下空间与工程学报,2021,17(5):1653-1663.(Wu Fengbo,Zheng Weiqiang,Qi Jianfeng,et al.The ground transverse settlement tank parameters analysis of subway double line shield section[J].Chinese Journal of Underground Space and Engineering,2021,17(5):1653-1663.(in Chinese))
[19] 顾展飞,魏海龙,刘之葵.隧道施工引发粉土地面沉降模拟与分析[J].地下空间与工程学报,2024,20(增1):391-402.(Gu Zhanfei,Wei Hailong,Liu Zhikui.Simulation and analysis of silt land subsidence caused by tunnel construction[J].Chinese Journal of Underground Space and Engineering,2024,20(Supp.1):391-402.(in Chinese))
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