• 全国中文核心期刊
  • 中国科技核心期刊
  • 美国工程索引(EI)收录期刊
  • Scopus数据库收录期刊
刘畅, 马力遥, 郑刚, 闫城东, 杨宇航. 斜直交替基坑支护桩现场实测及机理研究[J]. 岩土工程学报, 2022, 44(5): 827-835. DOI: 10.11779/CJGE202205005
引用本文: 刘畅, 马力遥, 郑刚, 闫城东, 杨宇航. 斜直交替基坑支护桩现场实测及机理研究[J]. 岩土工程学报, 2022, 44(5): 827-835. DOI: 10.11779/CJGE202205005
LIU Chang, MA Li-yao, ZHENG Gang, YAN Cheng-dong, YANG Yu-hang. Field measurement and mechanism of inclined and vertical piles in foundation pits[J]. Chinese Journal of Geotechnical Engineering, 2022, 44(5): 827-835. DOI: 10.11779/CJGE202205005
Citation: LIU Chang, MA Li-yao, ZHENG Gang, YAN Cheng-dong, YANG Yu-hang. Field measurement and mechanism of inclined and vertical piles in foundation pits[J]. Chinese Journal of Geotechnical Engineering, 2022, 44(5): 827-835. DOI: 10.11779/CJGE202205005

斜直交替基坑支护桩现场实测及机理研究

Field measurement and mechanism of inclined and vertical piles in foundation pits

  • 摘要: 斜直交替基坑支护结构是利用冠梁将交替布置的竖直悬臂桩与倾斜桩连接到一起形成的无支撑支护体系。已有工程实测表明,斜直交替支护具有较好的抗倾覆和变形控制能力,然而目前还缺乏从桩身受力角度对斜直交替支护受力机理进行系统研究。结合天津市某基坑工程进行斜直交替支护桩现场监测,首次对支护斜桩的桩身受力进行测试和分析,在此基础上利用PLAXIS有限元软件进行数值建模,对斜桩轴力发挥机理以及斜桩倾斜角度、斜直桩排布形式对支护性能的影响展开研究。结果表明,斜直交替支护比单排倾斜桩和双排桩支护桩的桩身轴力更大,斜桩对直桩存在着斜撑效应,且斜撑效应对支护结构变形的控制效果明显,斜撑效应的发挥主要来源于斜桩与被动区土体相对位移产生桩侧摩阻力;同时发现增大斜桩倾斜角度有利于增强斜桩的斜撑效应,使得支护桩侧移减小,但同时支护桩的桩身最大正弯矩会增加;此外,在用桩量相同的情况下,不同斜直桩组合及布置形式对支护变形影响较小,采用一斜两直的布置形式,能够在降低施工难度的同时减少直桩的受力。

     

    Abstract: The inclined and vertical support for foundation pits is a kind of unsupported support system, which is formed by using the crown beam to connect the vertical cantilever pile and the inclined pile. The measured results of the existing projects show that the inclined and vertical alternate support has better anti-overturning and deformation control capability. However, there is still a lack of systematic research on the mechanism of inclined and vertical alternate support from the perspective of pile stress. Based on the field tests on the inclined and vertical alternate support piles in a foundation pit project in Tianjin, the forces of the inclined pile are monitored and analyzed. On this basis, the numerical modeling is carried out by using the finite element software PLAXIS. The mechanism of the axial forces of the inclined pile and the influences of the inclined angle and the arrangement of the inclined and vertical piles on the supporting performance are studied. The results show that the axial forces of the pile shaft are greater than those of the single-row inclined piles and double-row support piles, and the effect of inclined support is obvious to the deformation control of the support structures. The effect of inclined support is mainly due to the relative displacement of the inclined pile and the soil in the passive area to produce the side friction resistance of the pile. At the same time, it is found that increasing the inclined angle of the inclined pile is conducive to the inclined support of the inclined pile, which makes the lateral displacement of the support pile decrease, but the maximum positive bending moment of the pile shaft will increase at the same time. In addition, under the same amount of piles, different arrangements of inclined and vertical piles have small influences on the deformation of the support. The arrangement of one inclined and two vertical piles can reduce the stress of the vertical pile and the construction difficulty.

     

/

返回文章
返回