A simulation based on the cosserat continuum model of the vortex structure in granular materials
Author:
Publisher
Springer Science and Business Media LLC
Subject
Mechanical Engineering,Mechanics of Materials,Computational Mechanics
Reference10 articles.
1. Coherent vortex structures in deforming granular materials;Williams;Mechanics of Cohesive-frictional Materials,1997
2. The development of circulation cell structures in granular materials undergoing compression;Williams;Powder Technology,1997
3. Structured deformation in granular materials;Kuhn;Mechanics of Materials,1999
4. Force chain buckling, unjamming transitions and shear banding in dense granular assemblies;Tordesillas;Philosophical. Magazine,2007
5. Mesoscale measuers of nonaffine deformation in dense granular assemblies;Tordesillas;Journal of Engineering Mechanics,2008
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1. Discrete element investigation into Cosserat effects of granular materials: The measurement of couple stress and Cosserat modulus;Powder Technology;2024-02
2. A micromorphic elastoplastic model and finite element simulation on failure behaviors of granular materials;International Journal for Numerical and Analytical Methods in Geomechanics;2019-12-22
3. Investigations of quasi-static vortex structures in 2D sand specimen under passive earth pressure conditions based on DEM and Helmholtz–Hodge vector field decomposition;Granular Matter;2017-03-31
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