测绘通报 ›› 2024, Vol. 0 ›› Issue (8): 160-164.doi: 10.13474/j.cnki.11-2246.2024.0828

• 技术交流 • 上一篇    

基坑开挖变形特征和影响规律研究

曹亮, 李云鹤, 陈帅, 刘顺涛, 刘伟   

  1. 北京市政路桥股份有限公司, 北京 100000
  • 收稿日期:2024-04-01 发布日期:2024-09-03
  • 通讯作者: 陈帅。E-mail:964063965@qq.com
  • 作者简介:曹亮(1987—),男,中级工程师,主要从事土木工程施工工作。E-mail:497211955@qq.com

Research on deformation characteristics of foundation pit excavation and its influence

CAO Liang, LI Yunhe, CHEN Shuai, LIU Shuntao, LIU Wei   

  1. Beijing Municipal Road and Bridge Co., Ltd., Beijing 100000, China
  • Received:2024-04-01 Published:2024-09-03

摘要: 针对软土地区基坑开挖变形问题,本文以天津市某深基坑工程为研究对象,基于ABAQUS有限元模型分析了基坑开挖过程中围护墙的水平变形和竖向变形,以及周围土体和相邻建筑物的沉降变形,并将有限元分析结果与现场实测值进行对比验证,从而获取了深基坑开挖变形特征和影响规律。研究表明,基坑围护墙在水平方向上的最大位移主要集中在开挖面附近,且阳角的水平变形约为阴角的2倍;而围护墙竖向变形具有显著的空间效应,且与墙壁长度之间存在良好的线性关系,最大回弹值出现在基坑的阳角处。随着开挖深度的增加,基坑周围土体下沉模式由三角形转变为槽形状,下沉值和下沉范围随着距离坑角的增加而增加。针对基坑开挖造成的相邻建筑物不均匀沉降问题,通过采取注浆加固措施减小了约30%的沉降变形,证实了注浆保护措施的有效性。本文研究可为类似工程设计和现场施工提供参考。

关键词: 深基坑开挖, 现场实测, 数值模拟, 变形特征, 环境影响

Abstract: In response to the problem of deformation of deep foundation pit excavation in soft soil areas, this paper takes a deep foundation pit located in Tianjin as the research object. Based on the ABAQUS finite element model, the horizontal and vertical deformation of the retaining wall during the excavation process, as well as the settlement deformation of the surrounding soil and adjacent buildings are analyzed. The finite element analysis results are compared to the field monitoring results, obtaining the deformation characteristics of the deep foundation pit excavation and its influences. Researches indicated that the maximum horizontal displacement of the retaining wall is mainly concentrated in the excavation surface, and the horizontal deformation of the positive angle is about twice that of the negative angle.The vertical deformation of the retaining wall has a significant spatial effect, which has good linear relationship with the length of the wall. The maximum rebound value occurs at the external corner of the foundation pit. As the excavation depth increases, the settlement mode of the soil around the foundation pit changes from a triangle to a groove shape, and the settlement value and range increase with the increase of the distance from the pit angle. In response to the problem of uneven settlement of adjacent buildings caused by excavation of foundation pits, grouting reinforcement measures could reduce settlement deformation by about 30%, confirming the effectiveness of grouting protection measures. This study can provide reference for similar engineering design and field construction.

Key words: deep foundation pit excavation, field monitoring, numerical simulation, deformation characteristics, impact on environment

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