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A bounding surface model for saturated and unsaturated soil‐structure interfaces

Chao Zhou, Pei Tai, Jian‐Hua Yin

2020International Journal for Numerical and Analytical Methods in Geomechanics27 citationsDOI

Abstract

Summary In many geotechnical systems, such as reinforced slopes and embankments, soil‐structure interfaces are often unsaturated. Shear behaviour of unsaturated interfaces is strongly dependent on their matric suctions, as revealed by the results of extensive laboratory tests. So far, constitutive models for unsaturated interfaces are very limited in the literature. This paper reports a new bounding surface model for saturated and unsaturated interfaces. New formulations were developed to incorporate suction effects on the flow rule and plastic modulus. To examine the capability of the proposed model, it was applied to simulate suction‐ and stress‐controlled direct shear tests on unsaturated soil–cement, soil–steel and soil–geotextile interfaces. Measured and computed results are well matched, demonstrating that the proposed model can well capture key features of the shear behaviour of unsaturated interfaces, including suction‐dependent dilatancy, stress–strain relation and peak and critical state shear strengths.

Topics & Concepts

Geotechnical engineeringDilatantGeotextileCritical state soil mechanicsDirect shear testSuctionShear stressPore water pressureShear (geology)GeomembraneMaterials scienceGeologyConstitutive equationEngineeringStructural engineeringComposite materialFinite element methodMechanical engineeringSoil and Unsaturated FlowDam Engineering and SafetyLandslides and related hazards
A bounding surface model for saturated and unsaturated soil‐structure interfaces | Litcius