Abstract
Most red beds demonstrate inferior geotechnical properties in natural conditions and need to be improved when used as construction material. In this study, a serious of triaxial tests, permeability tests, and scanning electron microscopy (SEM) analysis were carried out on lime-stabilized and untreated red bed soil after experiencing different wetting-drying (W-D) cycles. The test results showed that, with the increase in the added lime, the shear strength, strength parameters (including the cohesion and the internal friction angle), and the shear modulus of red bed soil increased gradually. For the untreated specimens, the four parameters decreased considerably after experiencing W-D cycles, while for the lime-stabilized specimens, they generally increased with an increase in the W-D cycles. Without experiencing the W-D cycles, the permeability coefficient increased by two times after it was stabilized with 10% lime. But with an increase in the W-D cycles, the permeability coefficient of the untreated and lime-stabilized specimens continuously increased and significantly decreased, respectively. Finally, variations in microstructure of the red bed soil under the effects of the lime stabilization and W-D cycles were discussed based on the SEM analysis. The results may contribute to improvement of red bed soil when used as roadbed and airfield fillings.
Highlights
Red beds are detrital sedimentary rocks that are widely distributed in tropical and subtropical areas all over the world [1, 2]
In engineering practice, there are lots of environmental conditions which can affect the effect of chemical stabilization of soil foundations
Unconsolidated-undrained triaxial tests, permeability tests, and scanning electron microscopy (SEM) analysis were conducted to investigate the impact of W-D cycles on the mechanical properties of lime-stabilized soil
Summary
Red beds are detrital sedimentary rocks that are widely distributed in tropical and subtropical areas all over the world [1, 2]. Most red beds generally demonstrate inferior geotechnical properties due to inclusion of clay and soluble and/or organic minerals [4]. There exist limited studies regarding the impact of W-D cycles on the mechanical properties of lime-stabilized red bed soils. Unconsolidated-undrained triaxial tests, permeability tests, and SEM analysis were conducted to investigate the impact of W-D cycles on the mechanical properties of lime-stabilized soil. Based on these tests, effects of the W-D cycles on the stress-strain behavior, unconfined compressive strength and strength parameters, shear modulus, permeability, and microstructure were analyzed in detail. The obtained results may provide useful information for evaluating the long-term stability of foundation soils stabilized by lime in red bed areas
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