体会向坑内产生水平方向的挤压,微型钢管桩和树根桩的存在又限制了土体的水平位移,使得土体产生竖直方向的位移. 开挖深度在6.00 m左右时,竖向位移也出现降低再增加的趋势是由于开挖平台(1.00 m)上的存在使得边坡土体远离树根桩,树根桩对土体的约束减弱,虽然有微型桩的存在,但树根桩的约束作用强于微型桩,使得竖向位移在6.00 m处出现了降低再增加的趋势.
4 结论
通过ABAQUS模拟两种微型桩式复合土钉支护在基坑开挖不同阶段的变形情况,并结合基坑工程的变形监测数据进行对比分析,得出的结论有:
1)基坑的变形参数均在预警值范围内,说明两种微型桩式复合土钉支护能够有效地防止基坑产生变形,使其满足稳定性的要求.
2)通过有限元模拟复合土钉墙支护的基坑开挖,得出的模拟计算值和实测值总体趋势线还是比较相符的,表明了使用ABAQUS 有限元模拟复合土钉墙基坑开挖是可行且准确的.
3)随着开挖的进行,顶部水平位移出现先增大再减小后增大的现象,其竖向位移不断增加,二者开挖完成后趋于稳定.
4)随着开挖深度的增加,基坑边不同深度的水平位移总体趋势为先增大后减小再增大再减小,最大水平位移出现在深约6.00 m处近微型钢管桩的顶部位置,表明该部位较易出现问题,在基坑施工中应重点关注;基坑不同深度部位的竖向位移会逐渐增大,并会在坑底土体出现约19.00 mm的隆起.
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Application and numerical simulation of grouting micro-pile
composite soil nail in deep foundation pit support
TANG Xianyuan, HUANG Lang, WANG Shihai
(School of Civil Engineering and Architecture, Guangxi University of Science and Technology,
Liuzhou 545006, China)
Abstract: In order to study the support effect of two kinds of grouted micro-pile composite soil nails in deep foundation pit and the deformation of foundation pit during excavation, taking the deep foundation pit support project as an example, the ABAQUS finite element is used to establish a numerical analysis model to simulate the excavation process of the micro-pile composite soil nail construction, and the simulated value and the measured data are compared and analyzed. The research shows that the deformation parameters of the foundation pit are within the range of warning value, which indicates that the micro-pile composite soil nailing support effect is good; with the increase of excavation depth, the horizontal displacement of the top increases first and then decreases, and its vertical displacement Increasingly, the two tend to be stable after excavation; the horizontal displacement at different depths of the excavation in the excavation first increases, then decreases, then increases and then decreases. The maximum horizontal displacement occurs at a depth of about 6 m. The top of the steel pipe pile should be paid attention to in the foundation pit construction; the vertical displacement of the foundation pit at different depths will gradually increase, and a 19 mm bulge will appear in the soil at the bottom of the pit.
Key words: grouting micro pile; deep foundation pit support; composite soil nail; numerical analysis
(責任编辑:黎 娅)