院报 ›› 2023, Vol. 40 ›› Issue (8): 127-132.DOI: 10.11988/ckyyb.20220313

• 岩土工程 • 上一篇    下一篇

某冻胀敏感性粉质黏土冻结过程物理力学特性试验

胡坤1,2, 高兆国3, 王少伟1, 杨兆1, 吴炎4   

  1. 1.常州大学 城市建设学院,江苏 常州 213164;
    2.中国矿业大学 深部岩土力学与地下工程国家重点实验室,江苏 徐州 221116;
    3.江苏佰拓建设有限公司,江苏 常州 213161;
    4.常州大学 怀德学院,江苏 靖江 214500
  • 收稿日期:2022-03-15 修回日期:2022-04-01 出版日期:2023-08-01 发布日期:2023-08-09
  • 作者简介:胡 坤(1982-),男,山东济宁人,副教授,博士,主要从事人工冻结理论与技术方面的研究工作。E-mail: kunhu@vip.163.com
  • 基金资助:
    国家自然科学基金面上项目(41271096);中国博士后科学基金面上资助项目(2021M703507);江苏省产学研合作项目(BY2021208);深部岩土力学与地下工程国家重点实验室开放基金项目(SKLGDUEK1704);江苏省高校哲学社会科学研究一般项目(2022SJYB1316)

Experimental Study on Physical and Mechanical Properties of a Frost Susceptible Silty Clay in Freezing Processs

HU Kun1,2, GAO Zhao-guo3, WANG Shao-wei1, YANG Zhao1, WU Yan4   

  1. 1. School of Urban Construction,Changzhou University,Changzhou 213164,China;
    2. State Key Laboratory for Geomechanics & Deep Underground Engineering, China University of Mining and Technology, Xuzhou 221116, China;
    3. Jiangsu Baituo Construction Co., Ltd., Changzhou 213161, China;
    4. Huaide College, Changzhou University, Jingjiang 214500, China
  • Received:2022-03-15 Revised:2022-04-01 Published:2023-08-01 Online:2023-08-09

摘要: 针对寒区建设工程在土体冻结作用下的地基与基础稳定性问题,采用冻胀敏感性粉质黏土开展了土体冻结过程中的物理力学特性试验研究,获得了起始冻胀含水率、冻胀力、高温冻土抗剪强度等参数及其变化规律。主要结论如下:当土体含水率小于起始冻胀含水率时产生冻缩现象,由土骨架遇冷收缩和孔隙水相变膨胀共同作用所致;不同含水率条件下,土样冻结竖向位移经时变化曲线分为“冻缩”“冻缩-回弹”“冻缩-冻胀”3种类型;冻胀力经时变化曲线受温度场发展的影响分为快速增长和稳定增长2个阶段;冻胀力随冻结温度的降低而增大,利用分凝势理论进行分析,土体主动区温度梯度增大是冻胀力增大的原因;与常温土样相比,-3 ℃条件下的某冻结粉质黏土的黏聚力由7.34 kPa增加到29.56 kPa,内摩擦角由6.40°增加到9.18°,但其剪应力变化曲线并没有表现出低温冻土常见的脆性破坏,而是呈现应变硬化特征。

关键词: 粉质黏土, 高温冻土, 起始冻胀含水率, 冻胀力, 抗剪强度

Abstract: To address the issue of foundation stability in construction engineering in cold regions, an experimental study was conducted to investigate the physical and mechanical properties of a frost susceptible silty clay in freezing process. Parameters such as the critical water content for frost heaving, frost heave forces, and shear strength of warm frozen soils were determined. The results indicate that frost shrinkage occurs when the water content of soil samples is below the critical water content for frost heaving. This phenomenon is attributed to the combined effect of frost shrinkage of the soil skeleton and phase transformation of pore water. The vertical displacement curves of soil samples exhibit three types with varying water content: frost shrinkage, frost shrinkage followed by rebound, and frost shrinkage followed by frost heave. The curve of frost heave forces can be divided into two stages, namely rapid growth and stable growth, due to the development of the temperature field. The frost heave force increases as the freezing temperature decreases. The increase in temperature gradient within the active zone of freezing soils, based on the theory of segregation potential, is the cause of higher frost heave forces. When compared to soil samples at normal temperature, the cohesion of frozen silty clay at -3℃ increased from 7.34 kPa to 29.56 kPa, and the internal friction angle increased from 6.40° to 9.18°. However, the shear stress curves did not exhibit brittle failure of frozen soils, but rather displayed characteristics of strain hardening.

Key words: silty clay, warm frozen soils, critical water content for frost heaving, frost heaving force, shear strength

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