Abstract
This paper targets the expansive soils in Heilongjiang and Ankang to explore the influence of initial dry density, dry-wet cycle, and freeze-thaw cycle on the soil-water characteristics. The centrifuge method was used to obtain the soil-water characteristic curves (SWCCs) with different conditions. The volumetric strain of SWCC was modified based on the shrinkage test, and the corresponding fitting equations considering different factors were established. The results show that the volumetric water content is modified to consider the volume shrinkage effect of expansive soil, and the modification is more obvious in the high matric suction range. The smaller the initial dry density is, the worse the water-holding capacity of the sample is, and the smaller the air intake value is. The greater the time of the dry-wet cycle is, the greater the saturated volumetric water content of the sample is, and the corresponding water-holding capacity is significantly reduced. When the dry-wet cycle increases to a certain extent, the structure becomes stable. With the increase of the freeze-thaw cycle, the saturated volumetric water content first decreases and then increases. Similarly, after several times of the freeze-thaw cycle, the structure is basically stable. The fitted Gardner model equations under different conditions were proved to be able to describe the SWCCs of the two targeted expansive soils.
Highlights
Soil-water characteristic curve (SWCC) reflects the relationship between water content, degree of saturation, and matric suction of unsaturated soil. e commonly used test methods include the pressure plate method, filter paper method, centrifuge method, and tensiometer method. e centrifuge method is widely used because of its simple operation, short time usage, and the ability to measure the soil-water characteristic curves (SWCCs) under high matric suctions [1,2,3,4,5]
For the same expansive soil, the smaller the initial dry density is, the greater the saturated volumetric water content of the sample is, the worse the water-holding capacity is, and the smaller the air intake value is. (2) According to the shape of the curve, it can be divided into two stages: when the matric suction is less than the air intake value, the volumetric water content of the sample changes very slowly with the matric suction, and the curves under different initial dry densities intersect each other
When the matric suction is greater than the air intake value, the curve is steeper and the variation amplitude of the volumetric water content is greater. e curves tend to converge gradually with the increase of matric suction
Summary
Soil-water characteristic curve (SWCC) reflects the relationship between water content, degree of saturation, and matric suction of unsaturated soil. e commonly used test methods include the pressure plate method, filter paper method, centrifuge method, and tensiometer method. e centrifuge method is widely used because of its simple operation, short time usage, and the ability to measure the SWCC under high matric suctions [1,2,3,4,5]. As a kind of soil with high clay content and a large number of hydrophilic minerals, expansive soil has a series of special properties such as strong water sensitivity, swelling, and shrinkage. It is one of the most problematic kinds of soil to deal with in the engineering field and has been a hot research topic of theoretical research on unsaturated soil. Heilongjiang expansive soil is a kind of lacustrine sedimentary soft clay with expansibility, dispersibility, frost heave, and high soluble salt content It is black-brown, which is obviously different from the red-brown expansive soil in southern China. Its existence has caused great hazards such as canal slope sliding, road deformation, and house cracking, which seriously affects the operation safety of the corresponding projects. e expansive soil in Ankang hilly area has a subtropical continental monsoon climate. e swelling and shrinkage caused by seasonal rainfall led to a large area
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