岩土力学 ›› 2025, Vol. 46 ›› Issue (9): 2859-2872.doi: 10.16285/j.rsm.2024.1352CSTR: 32223.14.j.rsm.2024.1352

• 基础理论与实验研究 • 上一篇    下一篇

冻融循环作用下冰碛土力学特性及损伤机制研究

屈俊童,时启壮,郭颖杰,张 翔,刘 熠,蒋德阳   

  1. 云南大学 建筑与规划学院,云南 昆明 650504
  • 收稿日期:2024-10-31 接受日期:2025-02-24 出版日期:2025-09-10 发布日期:2025-09-04
  • 通讯作者: 时启壮,男,1999年生,硕士研究生,主要从事岩土工程方面研究。E-mail: 1533340089@qq.com
  • 作者简介:屈俊童,男,1978年生,博士,教授,主要从事岩土工程及工程抗震的研究工作。E-mail: 1790065706@qq.com
  • 基金资助:
    国家自然科学基金地区项目(No.52168038)。

Characteristics and damage mechanisms of ice deposits under freeze-thaw cycles

QU Jun-tong, SHI Qi-zhuang, GUO Ying-jie, ZHANG Xiang, LIU Yi, JIANG De-yang   

  1. School of Architecture and Planning, Yunnan University, Kunming, Yunnan 650504, China
  • Received:2024-10-31 Accepted:2025-02-24 Online:2025-09-10 Published:2025-09-04
  • Supported by:
    This work was supported by the National Natural Science Foundation of China (52168038).

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摘要: 为研究云南典型冰碛土力学特性及损伤机制,利用TSZ-2型全自动应变控制三轴仪对云南典型冰碛土进行不同影响因素下的三轴剪切试验,讨论了不同温度、围压、含水率下冰碛土的力学特性,并引入考虑冻融与荷载耦合损伤变量 统计损伤本构模型对冰碛土的偏应力-应变关系进行分析。研究结果表明:低围压条件下,初始含水率差异导致偏应力-应变曲线与破坏强度差异显著,随着围压增加,这种差异逐渐减小;在高围压条件下,冻融循环对最优含水率 wopt  = 19%的土体影响小,土体表现出高黏聚力和低破坏强度损伤,土体强度降低但整体偏应力强度保持不变。围压能减弱劣化效应,且首次冻融损伤最大,破坏强度总衰减率随温度升高而增加,其中最优含水率试样的破坏强度总衰减率最小。冻融次数增加会导致偏应力强度降低,且首次降幅最大,其变化与含水率相关。此外,内摩擦角和黏聚力随冻融次数增加而明显衰减,其中最优含水率试样受劣化作用影响较小。基于三轴试验推导的引入耦合损伤变量 的统计损伤本构模型,能够有效表征偏应力-应变关系。研究表明,冻融次数对损伤的影响大于冻结温度。

关键词: 冻融循环, 冰碛土, 力学特性, 损伤统计本构模型

Abstract: To investigate the mechanical properties and damage mechanisms of typical glacial soil in Yunnan, triaxial shear tests were conducted using a TSZ-2 automatic strain control triaxial apparatus under various influencing factors. The mechanical properties of glacial soil were analyzed under varying temperatures, confining pressures, and water contents. A statistical damage constitutive model incorporating a coupling damage variable D (freeze-thaw and load) was employed to characterize the deviatoric stress-strain relationship. The results indicate that under low confining pressures, variations in initial water content significantly affect the deviatoric stress-strain curves and failure strengths. However, the magnitude of these discrepancies diminishes progressively under increasing confining pressures. Under high confining pressures, freeze-thaw cycles have minimal impact on soil with optimal water content wopt of 19%, which exhibits high cohesion and low failure strength damage. As freezing temperature increases, the deviatoric stress-strain curves soften, and soil strength decreases; however, the overall deviatoric stress strength remains unchanged. Confining pressure reduces the deterioration effect, and the damage caused by the first freeze-thaw cycle is particularly significant. The total damage rate increases with rising freezing temperatures, while soil at optimal water content exhibits the lowest total loss rate. An increase in the number of freeze-thaw cycles reduces deviatoric stress strength, with the first decrease being the most pronounced and influenced by water content. The internal friction angle and cohesion significantly decrease as freeze-thaw cycles progress, whereas soil specimens at optimal moisture content exhibit lower degradation rates. The statistical damage constitutive model, incorporating coupling damage variable D effectively characterizes the deviatoric stress-strain relationship based on triaxial test results. Studies have shown that the effect of freeze-thaw cycles on damage is greater than that of freezing temperature.

Key words: freezing-thawing cycles, glacial soil, mechanical properties, statistical damage constitutive model

中图分类号: TU411
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