Fine particle percolation in a sheared granular bed

Abstract

We study the percolation velocity, vp, of a fine spherical particle in a sheared large-particle bed under gravity using discrete element method simulations for large-to-fine particle diameter ratios, R=d/df, below and above the free-sifting threshold, Rt≈6.5. For R<Rt, vp initially increases with increasing shear rate, γ, as shear-driven bed rearrangement reduces fine-particle trapping but then decreases toward zero due to fine-particle excitation for γd/g 0.1. For R>Rt, vp is constant at low γ but decreases toward zero at higher shear rates due to fine-particle excitation.

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