摘要: |
非饱和土基质吸力与其微观孔隙结构息息相关。为探究在干湿循环作用下滑带土孔隙结构与基质吸力的响应规律,以重塑黄土坡滑坡滑带土为研究对象,采用压汞法分析干湿循环过程中孔隙大小分布规律,得到不同干湿循环次数下滑带土孔隙分布曲线。在此基础上,结合分形原理,将滑带土孔隙划分成三类(大孔隙、中孔隙和小孔隙);结合毛细管模型,间接推算出滑带土的土-水特征曲线(SWCC)。研究结果表明:反复干湿循环作用使小孔隙逐渐转化成大孔隙,颗粒孔隙转化成团粒孔隙;不同干湿循环次数对应的土-水特征曲线均存在一个共同的拐点,拐点上侧,含水率相同时,随着干湿循环次数增加,基质吸力逐渐增大,下侧反之。研究成果有利于深入了解滑带土的干湿循环效应,可用于库岸滑坡演化机理研究。 |
关键词: 干湿循环 滑带土 压汞试验 孔隙特征 土-水特征曲线 |
DOI: |
分类号:P642.22 |
基金项目:国家自然科学基金资助项目(41572278) |
|
Response laws of pore structure and matrix suction of slip zone soils under action of wetting drying cycles |
XIONG Feng1, YANG Hongwei2, WU Yiping1, LI Jie1
|
1.Faculty of Engineering, China University of Geosciences (Wuhan), Wuhan;2.Central South Institute of Metallurgical Geology, Yichang
|
Abstract: |
The matrix suction in the unsaturatedsoil is closely related to its micro pore structure. In order to analyze the response laws of the pore structure and matrix suction of the slip zone soil under the actions of the wetting-drying cycles, the remolded slip soil of Huangtupo Iandslide was taken as the research case history. Further, a mercury intrusion porosimetry (MIP) tests are carried out to study the changes in pore size distribution during the wetting-drying cycles and the pore size distribution curves for different cycles have been got. On this basis, the pore of slip soil is classified into three type (large pores, medium pores, and small pores) using the fractal theory, and the soil-water characteristic curves of the slip zone soil is indirectly calculated (SWCC) using the capillary model. The research results show that under repeated wetting-drying cycles, some small pores gradually transformed into large pores, and some particle pores changed into aggregate pores. The curves had a common inflection point, and above the inflection point the matrix suction under the same water content gradually increases with the increase in cycle numbers, however, the opposite behavior was noted below the inflection point. Hence, the results obtained from this research can be helpful in comprehensively understanding the wetting-drying effects of the slip soil, which is of great significant and can be applied to research on the evolution mechanism of reservoir bank landslides. |
Key words: Wetting-drying cycles slip zone soil mercury intrusion porosimetry (MIP) test pore structure soil-water characteristic curve |