Influence of suction cycles on the soil fabric of compacted swelling soil

The soil fabric plays an important role in complex hydromechanical behaviour of the expansive soils This article addresses the influence of the wetting and drying paths on the soil fabric of compacted bentonite and silt mixtures at two different initial dry densities corresponding to loose and dense states To obtain the hydric response of the soil two suction imposition techniques were used osmotic technique for the suction range less than 8 5 MPa and the vapour equilibrium or the salt solution technique for the suction range between 8 5 and 287 9 MPa Additionally the soil fabric analysis was performed using mercury intrusion porosimetry (MIP) and nitrogen gas adsorption (BET) techniques The dense samples produced cumulative swelling strains during the suction cycles while shrinkage was observed for the loose samples The suction cycles induced an equilibrium state indicative of the elastic behaviour of the samples The soil fabric analysis showed that regardless of the soil s initial state (loose or dense) the samples obtained the same soil fabric at the equilibrium state The experimental results illustrated also the existence of an elastic void ratio (e(0e1)) where the compacted soils at this state present an elastic hydric behaviour during the successive suction cycles (C) 2010 Academie des sciences Published by Elsevier Masson SAS All rights reserved