Jamming, two-fluid behaviour and 'self-filtration' in concentrated particulate suspensions
Abstract
We study the flow of model experimental hard sphere colloidal suspensions at high volume fraction driven through a constriction by a pressure gradient. Above a particle-size dependent limit 0, direct microscopic observations demonstrate jamming and unjamming--conversion of fluid to solid and vice versa--during flow. We show that such a jamming flow produces a reduction in colloid concentration x downstream of the constriction. We propose that this `self-filtration' effect is the consequence of a combination of jamming of the particulate part of the system and continuing flow of the liquid part, i.e. the solvent, through the pores of the jammed solid. Thus we link the concept of jamming in colloidal and granular media with a 'two-fluid'-like picture of the flow of concentrated suspensions. Results are also discussed in the light of Osborne Reynolds' original experiments on dilation in granular materials.
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