Abstract
To study the mechanical properties of red clay under repeated dry and wet cycle test conditions, in this paper, the disturbed red clay in an engineering area in Liuzhou, Guangxi Province, was taken as the research object. By artificially controlling different dry and wet cycles in the laboratory, a direct shear test and triaxial consolidation drainage test were carried out on the red clay samples after different dry and wet cycles. The stress-strain curve and change rule of corresponding c and φ values were obtained. The results showed that, in both the direct shear test and the triaxial test, the shear strength parameters of red clay decreased with an increase in the number of dry and wet cycles and the attenuation was most obvious during the first cycle. With an increase in the number of dry and wet cycles, the attenuation gradually decreased. The constitutive model of the deviatoric stress and strain curve of red clay under dry and wet cycles was a plastic-hardening type. By analyzing the variation in parameters in the P-H model, the relationship between c, φ, and the number of dry and wet cycles n was obtained. The results showed that the parameters had different degrees of attenuation with the action of dry and wet cycles. To explain the above rules, some samples under different drying-wetting cycles were selected for environmental electron microscope scanning, and appropriate assumptions were made based on the microstructure.
Highlights
Red clay is a special clay with a high liquid limit, a high porosity ratio, a low compressibility, and other characteristics
(2) e direct shear tests under wetting and drying cycles showed that the shear strength of red clay decreases with an increase in the number of cycles, which is nonlinear
The strength parameters of red clay tend to stabilize. e direct shear test results of the dry red clay under wetting and drying cycles showed that the strength of the dry red clay is dispersed to a certain extent, and the shear surface is not smooth
Summary
Red clay is a special clay with a high liquid limit, a high porosity ratio, a low compressibility, and other characteristics. It is necessary to solve the engineering problems of red clay caused by rainfall and drying-wetting cycles during road engineering construction periods [1,2,3]. Erefore, it is of great significance to study the strength evolution law and microscopic mechanism of red clay under the action of drying-wetting cycles [4,5,6]. Chen [12, 13] studied the shrinkage and strength characteristics of red clay by experimental means. Mu et al [14] studied how the engineering properties of compacted red clay were affected by the number of wettingdrying cycles and the variation in moisture content in wetting-drying cycles by using consolidated drainage triaxial shear and compression tests
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