岩土力学 ›› 2024, Vol. 45 ›› Issue (S1): 324-336.doi: 10.16285/j.rsm.2023.1904

• 基础理论与实验研究 • 上一篇    下一篇

干湿冻融循环条件下重塑性黄土的强度劣化规律及非线性模型研究

丁旭升1, 2,张凌凯1, 2,樊培培1, 2   

  1. 1. 新疆农业大学 水利与土木工程学院,新疆 乌鲁木齐 830052; 2. 新疆农业大学 新疆水利工程安全与水灾害防治重点实验室,新疆 乌鲁木齐 830052
  • 收稿日期:2023-12-20 接受日期:2024-03-29 出版日期:2024-09-18 发布日期:2024-09-19
  • 通讯作者: 张凌凯,男,1987年生,博士,副教授,主要从事环境岩土工程方面的研究工作。E-mail: xjau_zlk@163.com
  • 作者简介:丁旭升,男,1998年生,硕士研究生,主要从事黄土的力学特性及本构模型等方面的研究工作。E-mail: 1759432720@qq.com
  • 基金资助:
    新疆维吾尔自治区杰出青年科学基金项目(No.2022D01E45);2022年自治区重点研发任务专项(No.2022B03024-3);新疆维吾尔自治区水利科技专项(No.XSXJ-2023-22)。

Strength degradation law and nonlinear model of remolded loess under dry-wet freeze-thaw cycles condition

DING Xu-sheng1, 2, ZHANG Ling-kai1, 2, FAN Pei-pei1, 2   

  1. 1. College of Water and Civil Engineering, Xinjiang Agricultural University, Urumqi, Xinjiang 830052, China; 2. Xinjiang Key Laboratory of Water Conservancy Engineering Safety and Water Disaster Prevention, Xinjiang Agricultural University, Urumqi, Xinjiang 830052, China
  • Received:2023-12-20 Accepted:2024-03-29 Online:2024-09-18 Published:2024-09-19
  • Supported by:
    This work was supported by the Outstanding Youth Science Fund Project of Xinjiang Uygur Autonomous Region (2022D01E45), the Special Projects on Key R & D Tasks of the Autonomous Region in 2022 (2022B03024-3) and the Xinjiang Uygur Autonomous Region Water Conservancy Science and Technology Special (XSXJ-2023-22).

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摘要: 新疆某地的输水明渠工程途经大面积湿陷性黄土区域,在间歇供水的运行工况及季节性温差变化的共同作用下,经常发生渠坡滑动破坏现象。为深入研究渠坡变形破坏机制,通过开展干湿冻融循环条件下黄土的三轴试验和扫描电镜试验,研究其变形规律及微观机制,最后基于黄土的变形规律对邓肯−张模型进行改进。三轴试验结果表明:随着干湿冻融循环次数的增加,黄土的应力−应变曲线下降,体变曲线上升,且变化幅度越来越小,当循环次数大于5次后,应力−应变曲线和体变曲线基本不变,黏聚力和内摩擦角均呈现出指数函数衰减的变化趋势,其中黏聚力受干湿冻融循环作用的影响较大。电镜扫描试验结果表明:通过扫描电镜进行微观分析,在干湿冻融循环作用下,大的颗粒和团聚体被分裂,颗粒间的胶结物质减少,面接触增加,大孔隙面积占比减少,小孔隙和中孔隙面积占比、三维孔隙率和孔隙圆形程度增加,分形维数下降;三维孔隙率和分形维数与黏聚力呈显著相关,大孔隙面积占比与内摩擦角呈显著相关。由于邓肯−张模型不能合理反映土体的软化现象,采用二次函数对邓肯−张模型进行修改,并通过修改公式对泊松比进行拟合,以此提出改进邓肯−张模型,改进后的模型对不同循环次数下黄土三轴试验结果拟合效果较好。随着循环次数的增加,应力−应变模型参数呈指数函数下降的趋势,应力−应变模型参数o呈指数函数上升的趋势,体变模型参数j呈指数函数上升的趋势,体变模型参数呈指数函数下降的趋势。

关键词: 干湿冻融循环, 重塑性黄土, 三轴试验, 扫描电镜, 改进邓肯?张模型

Abstract: A large area of collapsible loess area is part of a water conveyance open channel project in Xinjiang. Channel slope sliding failure often occurs due to intermittent water supply and seasonal temperature changes. To further study the deformation and failure mechanisms of canal slopes, triaxial tests and scanning electron microscope tests were conducted on loess under dry-wet freeze-thaw cycles to examine its deformation law and microscopic mechanism. Finally, the Duncan-Chang model was improved based on the deformation law of loess. Triaxial test results show that: With the increase of the number of dry-wet freeze-thaw cycles, the stress-strain curve of loess decreases, while the volume change curve increases, with diminishing change ranges. After more than 5 times, the stress-strain and volume change curves stabilize, and the cohesion and internal friction angle show an exponential attenuation trend. The cohesion is significantly affected by the dry-wet freeze-thaw cycles. Scanning electron microscopy test results show that: The microscopic analysis was conducted using scanning electron microscopy. Under dry-wet freeze-thaw cycles, large particles and aggregates split, the cementing material between particles decreased, the surface contact increased, the proportion of large pore areas decreased, while the proportion of small and medium pore areas, three-dimensional porosity and pore roundness increased, and the fractal dimension decreased. Three-dimensional porosity and fractal dimension are significantly correlated with cohesion, while the proportion of large pore area is significantly correlated with internal friction angle. The original Duncan-Chang model fails to reasonably reflect the softening phenomenon of soil. To address this, a quadratic function is used to modify the Duncan-Chang model, and Poisson’s ratio is fitted using a formula, resulting in an improved Duncan-Chang model. The improved model effectively fits the triaxial test results of loess under different cycles. As the number of cycles increases, the stress-strain model parameters k and q show an exponential decrease, while the stress-strain model parameter o shows an exponential increase. Similarly, the volume change model parameters j and l show an exponential increase, whereas the volume change model parameter t shows an exponential decrease.

Key words: dry-wet freeze-thaw cycles, remolded loess, triaxial test, scanning electron microscope, improved Duncan-Chang model

中图分类号: TU444
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