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A Dynamic Strain-Rate-Dependent Contact Model and Its Application in Hongshiyan Landslide

Chong Shi, Wangyang Li, Qingxiang Meng

2021Geofluids11 citationsDOIOpen Access PDF

Abstract

An earthquake-induced landslide, mainly affected by seismic movement, is a frequent large-scale geological hazard in hydraulic engineering. This paper proposed a rate-dependent strain-softened micromechanical contact model and implemented it in discrete element method code, namely, PFC. Using the PFC-FLAC coupling scheme, the Hongshiyan earthquake landslide is analyzed as a case study. The influence of the strain rate, damping, and topographic effect is discussed. The results indicate that the rate-dependent micromechanical model can give a reasonable seismic-induced failure process compared with the in situ situation and provide a numerical technique for earthquake-induced landslide analysis and rockfall hazard prediction.

Topics & Concepts

LandslideGeologySeismic hazardRockfallSeismologyGeotechnical engineeringStrain rateCoupling (piping)Scale (ratio)Settlement (finance)HazardEngineeringComputer scienceMaterials scienceMetallurgyChemistryOrganic chemistryPaymentMechanical engineeringPhysicsWorld Wide WebQuantum mechanicsLandslides and related hazardsRock Mechanics and ModelingDam Engineering and Safety