文章摘要
李镜培, 施曙东, 郑 笠, 姚建平.邻近基坑开挖及渗流条件下的主动土压力模型Journal of Water Resources and Water Engineering[J].,2023,34(1):168-175
邻近基坑开挖及渗流条件下的主动土压力模型
Active earth pressure model under adjacent foundation pit excavation and seepage condition
  
DOI:10.11705/j.issn.1672-643X.2023.01.20
中文关键词: 邻近基坑  主动土压力  基坑间距  极限分析  场地渗流
英文关键词: adjacent foundation pit  active earth pressure  foundation pit spacing  limit analysis  site seepage
基金项目:上海市浦东新区城建系统科学技术研究项目(PCKY202005)
Author NameAffiliation
LI Jingpei1, SHI Shudong2, ZHENG Li1, YAO Jianping2 (1.同济大学 土木工程学院 上海 200092 2.上海南汇建工建设(集团)有限公司 上海 201399) 
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中文摘要:
      邻近基坑开挖和场地渗流条件变化均会改变先期施工基坑支护结构所受的土压力,进而引起结构变形,然而目前较少有同时考虑以上两个方面的土压力计算模型。基于极限平衡法,利用邻近基坑开挖边界与对数螺线滑动面间的几何关系,引入土体有效重度和吸力随场地渗流条件变化的计算理论,建立了考虑邻近基坑开挖及渗流条件下的主动土压力计算模型,结合基坑监测数据验证了模型的可靠性与合理性。计算分析表明:当邻近基坑深度不变时,主动土压力系数随基坑间距的增大先呈线性变化,随后先增大后减小,最后保持不变。当基坑间距不变时,主动土压力系数随邻近基坑深度的增加包含两种变化类型,一类是呈现先增大后减小的“山坡型”,另一类则是增大后保持不变。场地降雨渗流及地下水水位升高都将使土中吸力降低,从而导致主动土压力增大。本文研究成果对邻近基坑开挖的受力变形分析具有理论参考作用。
英文摘要:
      The excavation of adjacent foundation pit and the change of site seepage conditions will affect the earth pressure on the supporting structure of the foundation pit constructed previously, which in turn causes structural deformation. However, there are few earth pressure calculation models which consider the above two aspects at the same time. Based on the limit equilibrium method and the geometric relationship between the adjacent excavation boundary and the logarithmic spiral sliding surface, the calculation theory of the effective weight of soil and the change of suction with the seepage condition of the site is introduced to establish a calculation model of active earth pressure considering the adjacent pit excavation and seepage condition. Then the model is verified to be logical and reliable by the monitoring data. Parameter analysis shows that when the adjacent pit depth is constant, the active earth pressure coefficient first changes linearly with the increase of pit spacing, then increases and decreases, and finally stabilizes. When the pit spacing is constant, with the increase of the adjacent pit depth the active earth pressure coefficient presents two types of changes, one is the “hillside type”, which rises first and then declines; the other remains unchanged after rising. The rainfall seepage and the rise of groundwater level will reduce the suction stress in soil and lead to the increase of active earth pressure. The research results can provide a theoretical reference for the stress and deformation analysis of the foundation pit affected by the adjacent pit excavation.
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