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 ($\phi$), force per disk ($F_d$) and force chain segment length ($l$) as a function of the tapping number ($\tau$). 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 $F_d$ : $N_{cum}(F_d) = A_F \exp (-\frac{F_d}{F_0})$, and force chain segment length $l$ : $N_{cum}(l) = A_l \exp (-\frac{l}{l_0})$. Whereas the coefficient ${A_F}$ varies with $\tau$ for force per disk, the force chain segment length shows no dependence on $\tau$. The $\tau$ dependence of $F_d$ and $\phi$ allows us to posit a linear relation between the total force of the granular pack ($F_{tot}^*(\tau)$) and $\phi(\tau)$.