Structural evolution of a granular pack under manual tapping

Abstract

We experimentally study a two-dimensional (2D) granular pack of photoelastic disks subject to vertical manual tapping. Using bright and dark field images, we employ gradient-based image analysis methods to analyse various structural quantities. These include the packing fraction (φ), force per disk (Fd) and force chain segment length (l) as a function of the tapping number (τ). The increase in packing fraction with tapping number is found to exponentially approach an asymptotic value. An exponential distribution is observed for both the cumulative numbers of force per disk Fd : Ncum(Fd) = AF (-FdF0), and force chain segment length l : Ncum(l) = Al (-ll0). Whereas the coefficient AF varies with τ for force per disk, the force chain segment length shows no dependence on τ. The τ dependence of Fd and φ allows us to posit a linear relation between the total force of the granular pack (Ftot*(τ)) and φ(τ).