Abstract
Soft soil is often subjected to cyclic loading such as that imposed during storms, under traffic, or in an earthquake. Furthermore, the cyclic-loading-induced excess pore water pressure can be partially dissipated after cyclic loading. Thus, different reconsolidation processes should be considered. A series of static and dynamic triaxial tests were conducted on undisturbed soft soil to determine the post-cyclic mechanical behavior thereof, such as the variation of undrained shear strength, the development of excess pore water pressure, and the evolution of effective stress path. The effects of consolidated confining pressure, cyclic stress ratio, and degree of reconsolidation were analyzed. Results show that the trend of all stress–strain curves is similar under different conditions. The effect of the degree of reconsolidation is such that, with increasing the degree of reconsolidation, the shear strength is enhanced. Meanwhile, compared with undrained shear strength without cyclic loading, the shear strength after cyclic loading with full reconsolidation is increased. These factors also have a significant effect on the undrained shear strength: the greater both the confining pressure and cyclic stress ratio are, the higher the undrained shear strength. A positive excess pore water pressure is always observed during post-cyclic shearing process, irrespective of different factors. The S-shaped effective stress paths under different test conditions are observed and cross the critical state line. The microstructures of undisturbed soil and post-cyclic specimens with different degrees of reconsolidation were quantitatively investigated. Besides that, the degree of influence of different factors on the post-cyclic undrained strength was analyzed. Based on the test results, the undrained shear strength with cyclic load-history was well predicted by existing models.
Highlights
Soft soil is widely distributed in China, such as Wenzhou, Ningbo, Xiamen, and Zhujiang
Yasuhara et al [35] studied the reconsolidation characteristics of Drammen clay after cyclic loading and the results showed that the variation of recompression index was related to the induced excess pore water pressure and axial strain during cyclic loading: for normally-consolidated Drammen clays, the recompression index decreases with increasing accumulative excess pore water pressure and shear strain
When the effects of confining pressure and the degree of reconsolidation on the shear characteristics of soil after cyclic loading are considered, the cyclic stress ratio (CSR) of 0.25 is employed, implying that the amplitude of the cyclic deviator stress applied to the specimen is half of the effective radial pressure
Summary
Soft soil is widely distributed in China, such as Wenzhou, Ningbo, Xiamen, and Zhujiang. Conducted a series of triaxial tests to investigate the effect of clay content on the post-cyclic shear behavior of low-plasticity silt and found that the undrained shear strength after cyclic loading increased with full reconsolidation. Pillai et al [28] observed that the degree of apparent overconsolidation increased with higher CSRs. The relationship between OCRapp and post-cyclic shear strength has been studied [32,33,34]. Yasuhara et al [35] studied the reconsolidation characteristics of Drammen clay after cyclic loading and the results showed that the variation of recompression index was related to the induced excess pore water pressure and axial strain during cyclic loading: for normally-consolidated Drammen clays, the recompression index decreases with increasing accumulative excess pore water pressure and shear strain.
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