Effect of bentonite permeation on the fabric and strength of Ottawa Sand

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Publication Title
Effect of bentonite permeation on the fabric and strength of Ottawa Sand

Abstract
This work aims to assess how the application of bentonite for soil liquefaction mitigation influences the soil fabric. Soil fabric controls the mechanical response of the soil through the interlocking forces between its particles. This is quantified using small-strain stiffness modulus Gmax. Maintaining or increasing Gmax is as important as increasing the cyclic resistance in any proposed mitigation measure against soil liquefaction. Previous studies have shown the effective use of bentonite in loose Ottawa sand samples for liquefaction mitigation using dry-mixing and permeation sample preparation techniques. However, resonant column tests on bentonite-treated dry mixed Ottawa Sand samples showed a decrease of the small strain stiffness modulus (Gmax) and thus a decrease in the shear strength of the treated soil compared to that of clean Ottawa Sand samples. This work investigated the effect of permeation on the small-strain stiffness of bentonite-treated loose Ottawa sand samples. Static triaxial tests and bender element tests on these samples showed that bentonite-treated sand samples at least maintained the same shear strength and small-strain stiffness moduli as those of clean sand samples. This work proves the effectiveness of the use of the permeation method using bentonite as a non-disruptive liquefaction mitigation technique.
Authors
D. Mourtada; G. A. Jaoude

Published In

18th European Conference on Soil Mechanics and Geotechnical Engineering (ECSMGE2024)

Theme

B - Geohazards

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