Failure of levees induced by toe uplift:Investigation of post-failure behavior using material point method  被引量：1

作　　者：Veronica Girardi Francesca Ceccato Alex Rohe Paolo Simonini Fabio Gabrieli 

机构地区：[1]University of Padua,Department of Civil,Environmental and Architectural Engineering,Via Ognissanti 39,Padua,Italy [2]GeoHal,Graswinckelstraat 50,Delft,Netherlands

出　　处：《Journal of Rock Mechanics and Geotechnical Engineering》2023年第4期970-983,共14页岩石力学与岩土工程学报（英文版）

基　　金：Financial supports from University of Padua(Grant No.BIRD181859);Italian Ministry of Education,University and Research(MIUR),Redreef-PRIN 2017 Call(Grant No.2017YPMBWJ)are gratefully acknowledged.

摘　　要：Levees are essential structures in flood defense systems,and their failures can lead to devastating consequences on the surrounding territories.One of the failure mechanisms mostly controlled by the foundation soil stratigraphy is the instability of the land side slope,triggered by the development of high uplift pressures in the foundation.This complex phenomenon has been investigated experimentally with centrifuge tests or large-scale tests and numerically with the limit equilibrium method(LEM)and the finite element method(FEM).In this work,we applied a multiphase formulation of the material point method(MPM)to analyze the development of toe uplift instability mechanism,from the onset of failure to large displacements.The numerical model is inspired by an experiment carried out in a geotechnical centrifuge test by Allersma and Rohe(2003).The comparison with the experiment allows for understanding critical pore pressure triggering large displacements in the foundation soils.Moreover,we numerically evaluated the impact of different values of foundation soils’hydraulic conductivity on the failure mechanism.The results show that hydraulic conductivity mainly influences the time of failure onset and the extension of shear localization at depth.Finally,the advantages of using large displacement approaches in the safety assessment of earth structures are discussed.Unlike FEM,there are no issues with element distortions generating difficulties with numerical convergence,allowing for full postfailure reproduction.This capability permits precise quantification of earth structure damages and post-failure displacements.The ensuing reinforcement systems’design is no longer over-conservative,with a significant reduction in associated costs.

关 键 词：Slopes safety assessment LEVEES Uplift pressure Large deformation analysis 

分 类 号：TU41[建筑科学—岩土工程]