Influence of swelling behavior on the stability of an infinite unsaturated expansive soil slope

The influence of the stress regime change and associated softening can be significant on unsaturated expansive soil slope stability due to soil swelling upon wetting, which cannot be considered in conventional hydrological models. In this paper, the shallow expansive soil slope failure mechanism is...

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Bibliographic Details
Published in:Computers and geotechnics 2016-06, Vol.76, p.154-169
Main Authors: Qi, Shunchao, Vanapalli, Sai K.
Format: Article
Language:English
Subjects:
Expansion
Expansive soils
Failure
Infiltration-induced failure
Infinite slope
Mathematical models
Shallow slope failure
Slopes
Softening
Softening behavior
Soil (material)
Stresses
Swelling-induced stress
Unsaturated
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Summary:The influence of the stress regime change and associated softening can be significant on unsaturated expansive soil slope stability due to soil swelling upon wetting, which cannot be considered in conventional hydrological models. In this paper, the shallow expansive soil slope failure mechanism is addressed in the framework of an infinite slope formulation. The unsaturated soil elasto-plastic constitutive relationship is utilized for interpretation of stress regime evolution induced by expansive soil swelling during infiltration. The extended Mohr–Coulomb failure criterion for unsaturated soils is used as the yield surface, under which the nonlinear elastic behavior is considered by quantifying the effect of two stress state variables (net stress and suction) on elasticity parameters. The strain softening behavior in unsaturated soils is accounted for via reducing the material parameters of the yield surface with respect to plastic deviatoric strain. A numerical exercise is performed on a relatively gentle slope in Regina, Canada with highly expansive soil properties, using the developed computer program that implements the constitutive model into infinite slope formulation. The results suggest that neglecting the swelling-induced stress change and associated softening behavior can significantly overestimate the stability of expansive soil shallow layer under infiltration, in terms of both failure occurrence and failure time. Additional parametric study shows that all the considered parameters (including initial stress condition, softening rate and slope angle) have a considerable effect on the failure time and failure depth of the shallow deposit, which have important implications for the engineering design of expansive soil slopes.
ISSN:0266-352X
1873-7633
DOI:10.1016/j.compgeo.2016.02.018