Litcius/Paper detail

Strain localization of Mohr-Coulomb soils with non-associated plasticity based on micropolar continuum theory

Jianbin Tang, Xi Chen, Liusheng Cui, Zongqi Liu

2023Journal of Rock Mechanics and Geotechnical Engineering22 citationsDOIOpen Access PDF

Abstract

To address the problems of strain localization, the exact Mohr-Coulomb (MC) model is used based on second-order cone programming (mpcFEM-SOCP) in the framework of micropolar continuum finite element method. Using the uniaxial compression test, we focused on the earth pressure problem of rigid wall segment involving non-associated plasticity. The numerical results reveal that when mpcFEM-SOCP is applied, the problems of mesh dependency can be effectively addressed. For geotechnical strain localization analysis involving non-associated MC plasticity, mpcFEM-SOCP in conjunction with the pseudo-time discrete scheme can improve the numerical stability and avoid the unreasonable softening issue in the pressure-displacement curves, which may be encountered in the conventional FEM. It also shows that the pressure-displacement responses calculated by mpcFEM-SOCP with the pseudo-time discrete scheme are higher than those calculated by mpcFEM-SOCP with the Davis scheme. The inclination angle of shear band predicted by mpcFEM-SOCP with the pseudo-time discrete scheme agrees well with the theoretical solution of non-associated MC plasticity.

Topics & Concepts

PlasticityMohr–Coulomb theoryShear bandFinite element methodMathematicsCoulombDisplacement (psychology)Mathematical analysisStructural engineeringGeotechnical engineeringPhysicsGeologyEngineeringElectronPsychologyPsychotherapistQuantum mechanicsThermodynamicsGeotechnical Engineering and Underground StructuresGeotechnical Engineering and Soil MechanicsDam Engineering and Safety