Abstract:Based on the engineering case of the foundation pit support of No. F26 abutment pile foundation underpinning project on the ramp of Huanghe Road Interchange Bridge on Zhongzhou Avenue in Zhengzhou City, a construction scheme combining the cut and cover method with the underground excavation is put forward, and the composite support of soil-nailing wall shotcrete anchors, borehole grouting and internal bracings is employed. The real-time data monitoring of supporting structures is carried out by means of the remote automatic monitoring and the manual monitoring. The results show that the supporting structures and the construction scheme are reasonable, and the deformations of the slope and the surrounding ground are effectively controlled, and the maximum vertical displacement and the maximum horizontal displacement are 12 and 13 mm, respectively, which are less than the control values. During the whole construction process, the traffics around and above the foundation pit are not affected. The data monitoring system provides a reference for the safe construction and makes the whole project be successfully completed.
刘军, 徐志军, 原方, 郭兆翔. 立交桥桥台桩基托换基坑支护设计与监测[J]. 岩土工程学报, 2019, 41(S2): 217-220.
LIU Jun, XUN Zhi-jun, YUAN Fang, GUO Zhao-xiang. Design and monitoring of foundation pit support project for pile foundation underpinning of abutment of interchange bridges. Chinese J. Geot. Eng., 2019, 41(S2): 217-220.
[1] 顾保南, 杨照, 徐雷, 等. 1997—2017年中国城市轨道交通发展统计分析[J]. 城市轨道交通研究, 2018, 21(5): 85-89. (GU Bao-nan, YANG Zhao, XU Lie, et al.Statistical analysis of urban rail transit lines in China from 1997 to 2017[J]. Urban Mass Transit, 2018, 21(5): 85-89. (in Chinese)) [2] 乜铁利, 张波, 张涛, 等. 布拉柴维尔商务中心基坑高地下水位边坡支护技术[J]. 建筑技术, 2017, 48(8): 872-875. (NIE Tie-li, ZHANG Bo, ZHANG Tao, et al.Foundation pit supporting technology of Brazzaville Business Center for excavation under high ground water level[J]. Architecture Technology, 2017, 48(8): 872-875. (in Chinese)) [3] 刘勇, 万利民, 袁光辉, 等. 广州白云国际机场T2航站楼隧道基坑支护设计技术[J]. 施工技术, 2017, 46(14): 7-9. (LIU Yong, WAN Li-min, YUAN Guang-hui, et al.Design technology of foundation excavation support for Guangzhou Baiyun International Airport Terminal No.2 tunnel[J]. Construction Technology, 2017, 46(14): 7-9. (in Chinese)) [4] 金云飞, 刘郁, 朱蓉蓉. 火车站站前广场综合改造工程支护技术[J]. 施工技术, 2018, 47(13): 17-20. (JIN Yun-fei, LIU Yu, ZHU Rong-rong.Comprehensive supporting techniques for the renewal project of railway station square[J]. Construction Technology, 2018, 47(13): 17-20. (in Chinese)) [5] 邢军, 沈俊杰, 吴才德, 等. 宁波国际金融服务中心南区深基坑方案比选研究[J]. 建筑结构, 2017, 47(9): 98-103. (XING Jun, SHEN Jun-jie, WU Cai-de, et al.Selection study of deep foundation pit schemes of southern district of Ningbo International Financial Services Centre[J]. Building Structure, 2017, 47(9): 98-103. (in Chinese)) [6] 周秋来. 深基坑纵横榀井字形钢管内支撑设计及应用[J]. 铁道工程学报, 2018, 35(3): 1-7. (ZHOU Qiu-lai.The design and application of internal bracing for longitudinal and transverse steel pipes in deep foundation pit[J]. Journal of Railway Engineering Society, 2018, 35(3): 1-7. (in Chinese)) [7] ZHANG W, ZHANG M, WANG Y.Application and investigation of a new-style GFRP middle beam in foundation pit support[J]. Electronic Journal of Geotechnical Engineering, 2015, 20(7): 1727-1738. [8] 杨生彬, 王晓义, 朱艳艳. 北京市某深基坑支护工程实录[J]. 岩石力学与工程学报, 2007, 26(增刊2): 4471-4476. (YANG Sheng-bin, WANG Xiao-yi, ZHU Yan-yan.Engineering case of a deep foundation pit supporting in Beijing[J]. Chinese Journal of Rock Mechanics and Engineering, 2007, 26(S2): 4471-4476. (in Chinese))
