Issue 23, 2013

Rheopexy and tunable yield stress of carbon black suspensions

Abstract

We show that besides simple or thixotropic yield stress fluids there exists a third class of yield stress fluids. This is illustrated through the rheological behavior of a carbon black suspension, which is shown to exhibit a viscosity bifurcation effect around a critical stress along with rheopectic trends, i.e., after a preshear at a given stress the fluid tends to accelerate when it is submitted to a lower stress. Viscosity bifurcation displays here original features: the yield stress and the critical shear rate depend on the previous flow history. The most spectacular property due to these specificities is that the material structure can be adjusted at will through an appropriate flow history. In particular it is possible to tune the material yield stress to arbitrary low values. A simple model assuming that the stress is the sum of one component due to structure deformation and one component due to hydrodynamic interactions predicts all rheological trends observed and appears to well represent quantitatively the data.

Graphical abstract: Rheopexy and tunable yield stress of carbon black suspensions

Article information

Article type
Paper
Submitted
16 Nov 2012
Accepted
20 Mar 2013
First published
17 Apr 2013

Soft Matter, 2013,9, 5540-5549

Rheopexy and tunable yield stress of carbon black suspensions

G. Ovarlez, L. Tocquer, F. Bertrand and P. Coussot, Soft Matter, 2013, 9, 5540 DOI: 10.1039/C3SM27650C

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