Emad Maleksaeedi scite author profile

Emad Maleksaeedi

4Publications

4Citation Statements Received

0Citation Statements Given

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153

Affiliations

Université de Sherbrooke, Hydro-Québec

Publications

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Evaluation of capillary water retention effects on the development of the suction stress characteristic curve

Maleksaeedi

Nuth

2020

Can. Geotech. J.

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The suction stress characteristic framework is a practical approach for relating the suction and the water-filled pore volume to the stress state of unsaturated soils. It predicts the effective stress by developing the suction stress characteristic curve from the soil-water retention curve. In this framework, the effective degree of saturation is usually calculated by the empirical water retention model of van Genuchten (published in 1980). In this paper, the use of a generalized soil-water retention model proposed by Lu in 2016, which differentiates the role of capillary and adsorption mechanisms, in the suction stress characteristic framework is studied. A redefinition of the effective degree of saturation is suggested, by choosing the retention state where capillarity approaches zero instead of the residual retention state. The validity of this assumption is examined using experimental data obtained by unsaturated shear strength and retention tests and datasets collected from the literature. The proposed definition is applicable for a variety of soils where capillarity is the dominant mechanism in producing suction stress within the range of suction 0–1500 kPa. In addition, it is observed that the generalized soil-water retention model presents a more realistic prediction of unsaturated shear strength compared with empirical water retention models.

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Experimental Study of Suction Stress Characteristic Framework for Granular Materials Using Conventional Direct Shear Test

Maleksaeedi

Nuth

Sarlati

et al. 2018

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The effect of rotational stiffness on the behaviour of retaining wall

Beygi

Vali

Porhoseini

et al. 2018

International Journal of Geotechnical Engineering

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A Modified Oedometer Setup for Simultaneously Measuring Hydromechanical Stress-Strain Paths for Soils in the Unsaturated State

et al. 2019

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