Issue 15, 2024

Effects of salinity on the flow of dense colloidal suspensions

Abstract

We experimentally study the effects of salt concentration on the flowing dynamics of dense suspensions of micrometer-sized silica particles in microfluidic drums. In pure water, the particles are fully sedimented under their own weight, but do not touch each other due to their negative surface charges, which results in a “frictionless” dense colloidal suspension. When the pile is inclined above a critical angle θc ∼ 5° a fast avalanche occurs, similar to what is expected for classical athermal granular media. When inclined below this angle, the pile slowly creeps until it reaches flatness. Adding ions in solution screens the repulsive forces between particles, and the flowing properties of the suspension are modified. We observe significant changes in the fast avalanche regime: a time delay appears before the onset of the avalanche and increases with the salt concentration, the whole dynamics becomes slower, and the critical angle θc increases from ∼5° to ∼20°. In contrast, the slow creep regime does not seem to be heavily modified. These behaviors can be explained by considering an increase in both the initial packing fraction of the suspension Φ0, and the effective friction between the particles μp. These observations are confirmed by confocal microscopy measurements to estimate the initial packing fraction of the suspensions, and AFM measurements to quantify the particles surface roughness and the repulsion forces, as a function of the ionic strength of the suspensions.

Graphical abstract: Effects of salinity on the flow of dense colloidal suspensions

Article information

Article type
Paper
Submitted
10 Jan 2024
Accepted
06 Mar 2024
First published
07 Mar 2024
This article is Open Access
Creative Commons BY license

Soft Matter, 2024,20, 3367-3375

Effects of salinity on the flow of dense colloidal suspensions

M. Lagoin, A. Piednoir, R. Fulcrand and A. Bérut, Soft Matter, 2024, 20, 3367 DOI: 10.1039/D4SM00035H

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