The purpose of this study is to estimate and compare the suction stresses in unsaturated sand for various relative
densities. The matric suction and volumetric water content were measured in the drying and wetting processes
for sands with different relative densities of 40%, 60% and 75% using an automated soil–water characteristic curve
(SWCC) apparatus, and the SWCCs were estimated by the van Genuchten (1980) model based on the measured
results. As the relative density increased, the air entry value (AEV) decreased but the water entry value (WEV)
increased. Also, the fitting parameter αin the wetting process is larger than that in the drying process. The suction
stress characteristic curves (SSCCs) proposed by Lu and Likos (2006) were also estimated using the SWCC parameters.
The suction stress increased with the effective degree of saturation but suddenly decreased just before the
soil was fully saturated. When the matric suction was higher than the AEV or WEV, the suction stress decreased.
As the relative density increased, the maximum suction stress increased in the drying process but decreased in
the wetting process. The SWCCs and SSCCs exhibited hysteretic behaviors between the drying and wetting
processes.