土体湿化膨胀与桩基相互作用的试验与理论研究

土体湿化膨胀与桩基相互作用的试验与理论研究
摘要:为研究同一湿度场环境下土体湿化膨胀与桩基相互作用的机理，设计了室内物理模拟试验，对土体湿化膨胀与桩基相互作用进行了分析。通过人工降雨入渗的方式模拟变化的湿度场环境，实时监测模型箱中不同入土深度的桩基抬升量以及膨胀土地基的变形和应力数据，研究桩基入土深度与抬升情况的关系，基于非饱和土力学理论、桩–土相互作用剪切位移理论，提出考虑土体刚度和隆起量变化的侧摩阻力计算方法，并将桩侧摩阻力理论计算结果与模型试验结果进行对比分析。结果表明：在土体吸水膨胀过程中，桩体的向上抬升会引起桩底端部的卸载作用；地层隆起量随着深度的增加呈线性递减，随着桩尖入土深度的增加，桩顶隆起量呈对数趋势减小，增加桩长可以在一定程度上抑制桩基抬升；同时，基于剪切位移理论得出的桩侧摩阻力与基于非饱和膨胀土理论得出的桩的侧摩阻力及试验测试数据分布基本一致，表明本文所提出侧摩阻力计算公式是可靠的。

Abstract:To deeply study the stress and denaturation law of pile-expansive soil interaction in the humidity field, the physical simulation test of pile foundation uplift and the deformation or stress change of expansive soil foundation in the same humidity field at different soil depths was established. Through artificial rainfall infiltration to simulate the humidity field environment, and at the same time to monitor the change of pile foundation uplift at different soil depths in the model box, as well as the deformation and stress of expansive soil foundation, to obtain the impact of pile length on the uplift test results. Based on the theory of unsaturated soil mechanics, the distribution of pile lateral friction along pile length was analyzed. The theoretical formula of lateral friction resistance considering the change of soil stiffness and uplift is derived by combining with the shear displacement method, and compared with the results of the unsaturated soil mechanics theory and experiment. The results showed that the upward-lifting would cause unloading at the end of the pile body in the process of water absorption and expansion. With the increase of the pile tip's burial depth, the uplift of the pile tip tended to decrease as a logarithmic function, and the uplift decreased linearly with the increase of depth. The pile side friction theory formula and theory of unsaturated expansive soil pile side friction along the depth values were in good agreement. It was shown that the calculation formula of lateral friction was reliable, and based on the parameter limitation of the theoretical formula, the prediction method of lateral friction was put forward to determine the "neutral point" based on the theoretical formula and determine the value based on the unsaturated soil mechanics theory.

中文标题：
土体湿化膨胀与桩基相互作用的试验与理论研究
Experimental and Theoretical Research on Interaction Between Soil Wet Expansion and Pile Foundation

作者：
王金淑1, 2,,赵志明2,,,吴光2,冯涛3,何刘2
Wang Jinshu1, 2,,Zhao Zhiming2,,,Wu Guang2,Feng Tao3,He Liu2
作者简介:王金淑，女，1990年生，河南郑州人，博士，主要从事膨胀土基础理论和地质灾害稳定性与安全应急方面的研究。E-mail：jinshuwang@my.wjtu.edu.cn通讯作者:赵志明，男，1977年生，讲师，主要从事工程地质及岩土体稳定性评价方面的研究工作。E-mail：zmzhao@swjtu.edu.cn
通讯地址：
1.河南省地质研究院，河南郑州　450016    2.西南交通大学，四川成都　611756    3.中国中铁二院工程集团有限公司，四川成都　610031
1.HenanInstituteofGeology,Zhengzhou450016,Henan,China    2.SouthwestJiaotongUniversity,Chengdu611756,Sichuan,China    3.ChinaRailwayEryuanEngineeringGroupCo.,Ltd.,Chengdu610031,Sichuan,China

中图分类号:TU 443
doi:10.3969/j.issn.1007-2993.2023.06.014
出版物：岩土工程技术
收稿日期:2022-12-09
修回日期:2023-02-22
录用日期:2023-07-14
刊出日期:2023-12-08


关键词:桩,膨胀土,模拟试验,剪切位移法,侧摩阻力
Key words:pile,expansive soil,simulation test,shear displacement method,side friction
文档包含图片数量：图片(11)张
文档包含表格数量：表格(1)个

参考文献：
[1]张明义,邓安福. 桩–土滑动摩擦的试验研究[J]. 岩土力学,2002,23(2):246-249. doi:  10.3969/j.issn.1000-7598.2002.02.025
[2]范臻辉,肖宏彬,王永和. 膨胀土与结构物接触面的力学特性试验研究[J]. 中国铁道科学,2006,27(5):13-16. doi:  10.3321/j.issn:1001-4632.2006.05.003
[3]索洛昌. 膨胀土上建筑物的设计与施工[M]. 北京: 中国建筑工业出版社, 1982.
[4]MOHAMEDZEIN Y E, MOHAMED M G, EL SHARIEF A M. Finite element analysis of short piles in expansive soils[J]. Computers and Geotechnics. 1999, 24(3): 231-243.
[5]范臻辉. 膨胀土地基胀缩特性及桩–土相互作用研究[D]. 长沙: 中南大学, 2007.
[6]王年香,顾荣伟,章为民,等. 膨胀土中单桩性状的模型试验研究[J]. 岩土工程学报,2008,30(1):56-60. doi:  10.3321/j.issn:1000-4548.2008.01.008
[7]WEI D G, MARK F. R. Vertically loaded piles in non-homogeneous media[J]. International Journal for Numerical & Analytical Methods in Geomechanics, 1997, 21(8): 507-532.
[8]肖宏彬,苗 鹏. 膨胀土地基中大比例模型桩浸水试验研究[J]. 自然灾害学报,2007,16(6):122-127. doi:  10.3969/j.issn.1004-4574.2007.06.022
[9]张大峰,杨 军,李连友,等. 考虑膨胀土地基膨胀率和刚度沿深度变化的桩–土共同作用解析解[J]. 工程力学,2016,33(12):86-93. doi:  10.6052/j.issn.1000-4750.2015.04.0279
[10]JIANG J,HOU K,Ou X. Analysis of the bearing capacity of a single pile based on an analytical solution of pile-soil interaction in expansive soil[J]. Geotechnical and Geological Engineering,2020,38(2):1721-1732.
[11]胡金山. 膨胀土相似模型试验材料的研制与单桩模型浸水试验研究[D]. 兰州: 兰州交通大学, 2011.
[12]VANAPALLI S K,TAYLAN Z N. Design of single piles using the mechanics of unsaturated soils[J]. International Journal of GEOMATE,2012,2(1):197-204.
[13]LIU Y, VANAPALLI S. Design of retaining wall and single pile in expansive soils using unsaturated soil mechanics as a tool[C]// Pan-American Conference on Unsaturated Soils. Dallas: 2017.
[14]WANG J S,WU G,ZHAO Z M,et al. Experimental study on factors influencing the expansive properties of disturbed swelling rock[J]. Soil Mechanics and Foundation Engineering,2020,57(1):264-271.

基金项目：
基金项目:国家自然科学基金项目（41602293）

2025-1-16 20:51 上传 土体湿化膨胀与桩基相互作用的试验与理论研究.pdf

文件大小:

1.77 MB

下载次数:

60

高速下载