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Large deformation dynamic analysis of progressive failure in layered clayey slopes under seismic loading using the particle finite element method

Liang Wang, Xue Zhang, Stefano Tinti

2021Acta Geotechnica41 citationsDOIOpen Access PDF

Abstract

Abstract This paper presents the failure analysis of layered clayey slopes with emphasis on the combined effect of the clay’s weakening behavior and the seismic loading using the particle finite element method (PFEM). Diverse failure mechanisms have been disclosed via the PFEM modelling when the strain-weakening behavior of clay is concerned. In contrast to a single layered slope exhibiting either a shallow or a deep failure mode, a layered slope may undergo both failure modes with a time interval in between. Seismic loadings also enlarge the scale of slope failure in clays with weakening behavior. The failure of a real layered slope (i.e. the 1988 Saint-Adelphe landslide, Canada) triggered by the Saguenay earthquake is also studied in this paper. The simulation results reveal that the choice of the strain-softening value controls the slip surface of the landslide and the amplification effect is important in the triggering of the landslide.

Topics & Concepts

Geotechnical engineeringLandslideGeologyFinite element methodSlip (aerodynamics)Failure mode and effects analysisSolid mechanicsFailure mechanismDeformation (meteorology)Tensile strainSeismic loadingStructural engineeringUltimate tensile strengthMaterials scienceEngineeringComposite materialAerospace engineeringOceanographyLandslides and related hazardsGeotechnical Engineering and AnalysisDam Engineering and Safety