干湿-冻融作用输水渠道膨胀土强度特性及损伤演化规律研究

doi:10.16285/j.rsm.2024.1039

岩土力学 ›› 2025, Vol. 46 ›› Issue (5): 1356-1367.doi: 10.16285/j.rsm.2024.1039CSTR: 32223.14.j.rsm.2024.1039

干湿-冻融作用输水渠道膨胀土强度特性及损伤演化规律研究

姜海波¹，卢燕²，李琳³，张军⁴

1. 新疆农业大学水利与土木工程学院，新疆乌鲁木齐 830052；2. 新疆师范大学地理科学与旅游学院，新疆乌鲁木齐 830054； 3. 石河子大学第一附属医院CT和MRI室，新疆石河子 832000；4. 新疆水利水电勘测设计研究院有限责任公司，新疆乌鲁木齐 830054

收稿日期:2024-08-22 接受日期:2024-10-12 出版日期:2025-05-06 发布日期:2025-05-06
通讯作者: 张军，男，1981年生，博士，教授级高工，主要从事寒旱区水工结构损伤与稳定研究。E-mail: 244183367@qq.com
作者简介:姜海波，男，1983年生，博士，教授，主要从事多场耦合作用岩土体多尺度损伤破坏与稳定研究。E-mail: klaud_123@ 163. com
基金资助:
“天山英才”培养计划（No. 2024TSYCCX0027）；国家自然科学基金项目（No. 52369021）；“天山英才”优秀工程师项目（No. 2024-2026）。

Strength characteristics and damage evolution law of expansive soil in water conveyance channel under dry-wet and freeze-thaw action

JIANG Hai-bo¹, LU Yan², LI Lin³, ZHANG Jun⁴

1. College of Hydraulic and Civil Engineering, Xinjiang Agriculture University, Urumqi, Xinjiang 830052, China; 2. School of Geographical Sciences and Tourism, Xinjiang Normal University, Urumqi, Xinjiang 830054, China; 3. CT & MRI Room, The First Affiliated Hospital, Shihezi University, Shihezi, Xinjiang 832000, China; 4. Xinjiang Water Conservancy and Hydropower Survey and Design Research Institute Co., Urumqi, Xinjiang 830052, China

Received:2024-08-22 Accepted:2024-10-12 Online:2025-05-06 Published:2025-05-06
Supported by:
This work was supported by the "Tianshan Talents" Training Program (2024TSYCCX0027)，the National Natural Science Foundation of China (52369021) and the “Tianshan Talents” Excellent Engineer Training Project (2024-2026).

摘要/Abstract

摘要： 季节冻土区膨胀土的“干缩湿胀”与“冻胀融沉”效应，诱发了诸多工程病害问题。针对北疆供水工程膨胀土输水渠道强度衰减及边坡失稳破坏问题，以渠基膨胀土所经历的干湿及冻融循环作用为试验边界条件，开展渠基膨胀土不同埋深含水率监测试验，分析干湿、冻融不同阶段土体含水率随埋深的变化规律。同时通过干湿-冻融循环室内试验，研究干湿-冻融循环作用对膨胀土不均匀变形、强度衰减及微观结构损伤演化的影响。研究结果表明：（1）干湿-冻融环境下，渠基一定深度范围膨胀土的水分变化剧烈，其中冻融阶段含水率的变化最大，形成了膨胀土的“相变动力区”。（2）干湿-冻融循环作用下，膨胀土微观结构的损伤效应较显著，裂隙随循环次数增加不断发育扩展，膨胀土持续经历着“干缩湿胀”和“冻胀融沉”作用。在干湿-冻融作用的初期，膨胀变形量在总体变形量中贡献较大。经历一定次数的干湿-冻融循环作用后，土体的体积变形、膨胀变形量逐渐趋于稳定。（3）膨胀土的抗剪强度及其强度指标均出现了不同程度的衰减。其中黏聚力的衰减幅度较大，呈指数形式骤减，而内摩擦角的降低幅度则较小。在干湿-冻融作用的初期，黏聚力的衰减幅度占总衰减率的41.2%～48.6%。土体黏聚力的骤减，导致了渠基边坡膨胀土的浅层滑坡破坏，表明黏聚力在边坡失稳中起决定作用。

关键词: 膨胀土输水渠道, 干湿-冻融循环, 含水率, 强度衰减, 裂隙扩展

Abstract: The phenomena of “dry shrinkage and wet expansion” and “frost heave and thaw settlement” in expansive soils in seasonally frozen regions have caused numerous engineering problems. This study focuses on the strength degradation and slope instability in expansive soil water channels of the Northern Xinjiang water supply project. Using drying-wetting and freezing- thawing cycles as experimental conditions, the research includes moisture content monitoring at various depths to analyze soil moisture variation patterns during different stages. Additionally, laboratory experiments are conducted to study the effects of these cycles on non-uniform deformation, strength degradation, and microstructure damage in expansive soils. The results reveal that: 1) Under drying-wetting and freezing-thawing conditions, expansive soils at certain depths of the channel foundation exhibit significant moisture content fluctuations. The most significant variations occur during the freeze-thaw phase, establishing a “phase change dynamic zone” within the expansive soil. 2) Drying-wetting and freezing-thawing cycles cause significant microstructural damage in expansive soils, marked by continuous crack development and expansion with increasing cycle frequency. The soil experiences persistent “dry shrinkage and wet expansion” and “frost heave and thaw settlement” effects. In the early stages of drying-wetting and freezing-thawing action, expansive deformation significantly contributes to total deformation. However, after a certain number of cycles, both volumetric and expansive soil deformation gradually stabilize. 3) Expansive soils exhibit varying degrees of degradation in shear strength and strength parameters. Cohesion degrades more significantly, following an exponential decrease, while the internal friction angle experiences a less pronounced reduction. In the early stages of dry-wet and freeze-thaw cycles, cohesion degradation accounts for 41.2% to 48.6% of the total degradation rate. The significant decrease in soil cohesion leads to shallow landslides in expansive soil slopes of channel foundations, highlighting the crucial role of cohesion in slope instability.

Key words: expansive soil drainage channel, dry-wet and freeze-thaw cycles, moisture content, strength attenuation, crack extension

中图分类号: TU 443

姜海波, 卢燕, 李琳, 张军, . 干湿-冻融作用输水渠道膨胀土强度特性及损伤演化规律研究[J]. 岩土力学, 2025, 46(5): 1356-1367.

JIANG Hai-bo, LU Yan, LI Lin, ZHANG Jun, . Strength characteristics and damage evolution law of expansive soil in water conveyance channel under dry-wet and freeze-thaw action[J]. Rock and Soil Mechanics, 2025, 46(5): 1356-1367.

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干湿-冻融作用输水渠道膨胀土强度特性及损伤演化规律研究

Strength characteristics and damage evolution law of expansive soil in water conveyance channel under dry-wet and freeze-thaw action

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