摘要
为了研究河流水位对深浅式地铁基坑工程的影响,运用RS3有限元软件中流固耦合计算模型,探究了河流水位变化对深浅式基坑变形和受力的影响规律。结果表明:地连墙的水平位移和弯矩、坑底隆起位移和格构柱的竖向位移均随河流水位的增加而增加;坑边地表沉降位移和基坑的稳定安全系数随着河流水位的增加而减小。河流水位变化对格构柱的竖向位移影响较小;而河流水位标高为21~22 m范围时,对地连墙的水平位移和弯矩、坑边地表沉降位移、坑底隆起位移和基坑的稳定安全系数有较大的影响;随河流水位的增加,坑边地表沉降位移和坑底隆起位移的影响范围均会向下部和临河侧的土体扩大,临河侧基坑浅部和围护桩底的塑性破坏区域也会增大。
The paper aims to study the influence of river water level on deep and shallow subway foundation pit engineering.The fluidsolid coupling calculation model in RS3 finite element software was used to study the influence of river water level change on the deformation and stress of deep and shallow subway foundation pit.The results show that the horizontal displacement and bending moment of the diaphragm wall,uplift displacement of pit bottom and vertical displacement of the lattice column all increase with the increase of river water level.The ground surface settlement displacement and the stability safety factor of foundation pit decrease with the increase of river water level.The variation of river water level has little effect on vertical displacement of lattice columns.When the elevation of river water level is in the range of 21~22 m,it has great influence on the horizontal displacement and bending moment of the diaphragm wall,ground surface settlement displacement,the uplift displacement of pit bottom and the stability safety factor of foundation pit.With the increase of river water level,the influence range of ground surface settlement displacement and uplift displacement of pit bottom expand to the soil at the bottom of the pit and the river side,and the plastic failure area at the shallow part of the foundation pit and the bottom of the retaining pile will also increase.
作者
孟英杰
王维俊
李猛
胡天龙
龙大愚
MENG Yingjie;WANG Weijun;LI Meng;HU Tianlong;LONG Dayu(Beijing Municipal Road Bridge Holding Group Co.,Ltd.,Beijing 100068,China;School of Civil and Resource Engineering,University of Science and Technology Beijing,Beijing 100083,China)
出处
《粉煤灰综合利用》
CAS
2024年第1期93-99,106,共8页
Fly Ash Comprehensive Utilization
基金
北京市自然科学基金面上项目(8202033)。
关键词
临河条件
深浅式地铁基坑
河流水位
有限元分析
流固耦合
riverside conditions
deep and shallow subway foundation pit
stage of river
finite element analysis
fluid-solid coupling
