Title of article :
Modeling shear localization along granular soil–structure interfaces using elasto-plastic Cosserat continuum
Author/Authors :
Ebrahimian، نويسنده , , Babak and Noorzad، نويسنده , , Asadollah and Alsaleh، نويسنده , , Mustafa I.، نويسنده ,
Issue Information :
روزنامه با شماره پیاپی سال 2012
Pages :
22
From page :
257
To page :
278
Abstract :
The current study presents finite element simulations of shear localization along the interface between cohesionless granular soil and bounding structure under large shearing movement. Micro-polar (Cosserat) continuum approach is applied in the framework of elasto-plasticity in order to overcome the numerical problems of localization modeling seen in the conventional continuum mechanics. The effects of different micro-polar kinematic boundary conditions, along the interface, on the evolution and location of shear band are shown by the numerical results. Furthermore, shear band thickness is also investigated for its dependence on the initial void ratio, vertical pressure and mean grain size. Here, the distribution and evolution of static and kinematic quantities are the main focuses regarding infinite layer of micro-polar material during plane shearing, especially with advanced large movement of bounding structure. The influence of such movement has not been investigated yet in the literature. Based on the results obtained from this study, shear localization appears parallel to the direction of shearing. It occurs either in the middle of granular layer or near boundaries, regarding the assumed micro-polar kinematic boundary conditions at the bottom and top surfaces of granular soil layer. Narrower shear band is observed in lower rotation resistance of soil particles along the interface. It is emphasized that the displacement magnitude of bounding structure has significant effect on the distribution and evolution of state variables and polar quantities in the granular soil layer. However, continuous displacement has no meaningful effect on the thickness of shear band. Here, smooth distributions of void ratio and shear stress components are obtained within the shear band, what the other previous numerical investigations did not receive. Despite indirect linking of Lade’s model to the critical state soil mechanics, state variables tend towards asymptotical stationary condition in large shear deformation.
Keywords :
Elasto-plasticity , Infinite granular layer , Internal length , Soil–structure interface , Micro-polar (Cosserat) continuum , Plane shearing , Finite element method , Shear localization
Journal title :
International Journal of Solids and Structures
Serial Year :
2012
Journal title :
International Journal of Solids and Structures
Record number :
1389112
Link To Document :
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