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Flow and rheology of frictional elongated grains

Dániel B Nagy, Philippe Claudin, Tamás Börzsönyi, Ellák Somfai

2020New Journal of Physics31 citationsDOIOpen Access PDF

Abstract

Abstract The rheology of a 3-dimensional granular system consisting of frictional elongated particles was investigated by means of discrete element model calculations. A homogenous shear flow of frictional spherocyliders was simulated, and a number of rheological quantities were calculated. In the framework of the μ ( I ) rheology, the effective friction was found to be a non-monotonic function of the aspect ratio for interparticle friction coefficient μ p ≲ 0.4, while it was an increasing function for larger μ p . We reveal the microscopic origin of this peculiar non-monotonic behaviour. We show the non-trivial dependence of the velocity fluctuations on the dissipation regime, and trace back the behaviour of the normal stress differences to particle-level quantities.

Topics & Concepts

RheologyPhysicsDissipationMechanicsFlow (mathematics)Shear (geology)Granular materialFunction (biology)Friction coefficientShear stressShear flowClassical mechanicsStress (linguistics)Stream functionShear velocityComposite materialFlow propertiesFlow velocityDiscrete element methodGranular flow and fluidized bedsMaterial Dynamics and PropertiesRheology and Fluid Dynamics Studies
Flow and rheology of frictional elongated grains | Litcius