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首页 > 过刊浏览>2024年第46卷第3期 >16-23. DOI:10.11835/j.issn.2096-6717.2023.021
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温度影响下能量桩-土接触面剪切特性试验研究
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作者:
作者单位:

1.重庆大学 土木工程学院,重庆 400045;2.大足石刻研究院,重庆 402360;3.重庆市地质矿产勘查开发局,重庆 401121

作者简介:

陈志雄(1982- ),男,博士,副教授,主要从事桩-土相互作用机理研究,E-mail:chenzhixiong@cqu.edu.cn。
CHEN Zhixiong (1982- ), PhD, associate professor, main research interest: pile-soil interaction mechanism, E-mail: chenzhixiong@cqu.edu.cn.

通讯作者:

王成龙(通信作者),男,博士,副教授, E-mail:wangclong@cqu.edu.cn。

中图分类号:

TU473

基金项目:

国家自然科学基金(51908087);中央高校基本业务费(2021CDJQY-042)


Experimental study on shear behavior of energy pile-soil interface affected by temperature
Author:
Affiliation:

1.College of Civil Engineering, Chongqing University, Chongqing 400045, P. R. China;2.Academy of Dazu Rock Carvings, Chongqing 402360, P. R. China;3.Chongqing Bureau of Geology and Minerals Exploration, Chongqing 401121, P. R. China

Fund Project:

National Natural Science Foundation of China (No. 51908087); Fundamental Research Funds for the Central Universities (No. 2021CDJQY-042)

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    摘要:

    能量桩工作过程中,桩体受温度变化影响会产生热变形,进而引起桩周土体的循环剪切作用,弱化地基承载力,给桩基的正常使用带来风险。由于传统直剪仪无法模拟能量桩工作过程中的温度变化,因此对桩-土接触面力学特性受温度影响的变化规律研究较少。对传统直剪仪进行改造,使其可以改变剪切试样温度;所用土体从重庆某施工现场取样,开展不同温度变化下桩-土接触面的室内土工直剪试验,分析单次温度变化和循环温度变化对桩-土接触面力学性能的影响,并对温度影响下桩-土接触面力学特性与土体力学特性的差异进行比较。结果表明,能量桩-土接触面的抗剪强度受温度影响较大;随着温度的升高,能量桩-土界面摩擦角和黏聚力先减小后增大;低法向应力下温度循环对桩-土接触面力学特性影响较大,而高法向应力下温度循环对桩-土接触面力学特性影响不显著;土体的抗剪强度、黏聚力和摩擦角随温度变化规律与桩-土界面类似。

    Abstract:

    In the working process of energy pile, the pile body will produce thermal deformation influenced by temperature change and induce cyclic shear action on the soil around the pile, which would weaken the bearing capacity of the foundation and bring risks to the normal use of the pile foundation. Because the traditional direct shear apparatus could not simulate the temperature variation of the pile and soil in the working process of energy piles, there was limited research on the mechanical properties of the pile-soil interface affected by the temperature. In this paper, the traditional direct shear apparatus was modified to adjust the temperature of soil samples. The soil used in this test was sampled from a construction site in Chongqing, and the geotechnical direct shear tests of pile-soil interface under different temperatures were carried out. The effects of single and cyclic temperature variation on the mechanical properties of the pile-soil interface were analyzed. Meanwhile, the difference between the mechanical properties of pile-soil interface and soil was compared. The results showed that the shear strength of pile-soil interface was influenced significantly by the temperature. With the increase of temperature, the friction angle and cohesion of the pile-soil interface would firstly decrease and then increase. Temperature cycles had a great influence on the mechanical properties of pile-soil interface under low normal stress, while it had no significant influence under high normal stress. The variations of shear strength, friction angle and cohesion of the soil influenced by temperature was similar to those of pile-soil interface.

    参考文献
    [1] 陈志雄, 赵华, 王成龙, 等. 砂土中能量桩单桩水平承载特性模型试验研究[J]. 工程力学,2024, 41(3):114-123.CHEN Z X, ZHAO H, WANG C L, et al. Model tests on lateral bearing behavior of single energy pile in sand [J]. 2024, 41(3): 114-123. (in Chinese)
    [2] 王成龙, 刘汉龙, 孔纲强, 等. 不同刚度约束对能量桩应力和位移的影响研究[J]. 岩土力学, 2018, 39(11): 4261-4268.WANG C L, LIU H L, KONG G Q, et al. Study on stress and displacement of energy pile influenced by pile tip stiffness [J]. Rock and Soil Mechanics, 2018, 39(11): 4261-4268. (in Chinese)
    [3] VASILESCU R, YIN K, FAUCHILLE A, et al. Influence of thermal cycles on the deformation of soil-pile interface in energy piles [C]//7th International Symposium on Deformation Characteristics of Geomaterials (IS-Glasgow 2019), 2019, 92, 13004.
    [4] ABUEL-NAGA H M, BERGADO D T, LIN B F. Effect of temperature on shear strength and yielding behavior of soft Bangkok clay [J]. Soil and Foundations, 2007b, 47(3): 423-436.
    [5] 李春红, 孔纲强, 车平, 等. 能量桩桩-土接触面力学特性室内试验研究[J]. 建筑节能, 2016, 44(3): 99-105, 114.LI C H, KONG G Q, CHE P, et al. Laboratory experimental on interface mechanical properties of energy pile-soil [J]. Building Energy Efficiency, 2016, 44(3): 99-105, 114. (in Chinese)
    [6] XIAO S G, SULEIMAN M T, MCCARTNEY J S. Shear behavior of silty soil and soil-structure interface under temperature effects [C]//Geo-Congress 2014, Atlanta, Georgia. Reston, VA: American Society of Civil Engineers, 2014: 4015-4114.
    [7] DI DONNA A, FERRARI A, LALOUI L. Experimental investigations of the soil-concrete interface: Physical mechanisms, cyclic mobilization, and behaviour at different temperatures [J]. Canadian Geotechnical Journal, 2016, 53(4): 659-672.
    [8] MAGHSOODI S, CUISINIER O, MASROURI F. Thermal effects on mechanical behaviour of soil-structure interface [J]. Canadian Geotechnical Journal, 2020, 57(1): 32-47.
    [9] 李春红, 孔纲强, 张鑫蕊, 等. 温控桩-土接触面三轴试验系统研制与验证[J]. 岩土力学, 2019, 40(12): 4955-4962.LI C H, KONG G Q, ZHANG X R, et al. Development and verification of temperature-controlled pile-soil interface triaxial shear test system [J]. Rock and Soil Mechanics, 2019, 40(12): 4955-4962. (in Chinese)
    [10] YAZDANI S, HELWANY S, OLGUN G. Influence of temperature on soil-pile interface shear strength [J]. Geomechanics for Energy and the Environment, 2019, 18: 69-78.
    [11] DI DONNA A, LALOUI L. Response of soil subjected to thermal cyclic loading: Experimental and constitutive study [J]. Engineering Geology, 2015, 190: 65-76.
    [12] YAVARI N, TANG A M, PEREIRA J M, et al. Effect of temperature on the shear strength of soils and the soil–structure interface [J]. Canadian Geotechnical Journal, 2016, 53(7): 1186-1194.
    [13] MURPHY K D, MCCARTNEY J S. Thermal borehole shear device [J]. Geotechnical Testing Journal, 2014, 37(6): 20140009.
    [14] LI C H, KONG G Q, LIU H L, et al. Effect of temperature on behaviour of red clay-structure interface [J]. Canadian Geotechnical Journal, 2019, 56(1): 126-134.
    [15] YAZDANI S, HELWANY S, OLGUN G. Experimental evaluation of shear strength of Kaolin clay under cyclic and noncyclic thermal loading [J]. Geotechnical Testing Journal, 2018, 42(6): 1518-1548.
    [16] LIU H, LIU H L, XIAO Y, et al. Effects of temperature on the shear strength of saturated sand [J]. Soils and Foundations, 2018, 58(6): 1326-1338.
    [17] YAZDANI S, HELWANY S, OLGUN C G. The mechanisms underlying long-term shaft resistance enhancement of energy pile in clays [J]. Canadian Geotechnical Journal, 2021, 58(11): 1640-1653.
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陈志雄,甘丰嘉,王成龙,彭宸,丁选明.温度影响下能量桩-土接触面剪切特性试验研究[J].土木与环境工程学报(中英文),2024,46(3):16-23. CHEN Zhixiong, GAN Fengjia, WANG Chenglong, PENG Chen, DING Xuanming. Experimental study on shear behavior of energy pile-soil interface affected by temperature[J]. JOURNAL OF CIVIL AND ENVIRONMENTAL ENGINEERING,2024,46(3):16-23.10.11835/j. issn.2096-6717.2023.021

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  • 收稿日期:2022-12-08
  • 在线发布日期: 2024-05-20
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