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Article Dans Une Revue Journal of Fluid Mechanics Année : 2019

Shear thinning in non-Brownian suspensions explained by variable friction between particles

Laurent Lobry
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Elisabeth Lemaire
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Stany Gallier
François Peters

Résumé

We propose to explain shear thinning behaviour observed in most concentrated non-Brownian suspensions by variable friction between particles. Considering the low magnitude of the forces experienced by the particles of suspensions under shear flow, it is first argued that rough particles come into solid contact through one or a few asperities. In such a few-asperity elastic-plastic contact, the friction coefficient is expected not to be constant but to decrease with increasing normal load. Simulations based on the Force Coupling Method and including such a load-dependent friction coefficient are performed for various particle volume fractions. The results of the numerical simulations are compared to viscosity measurements carried out on suspensions of polystyrene particles (40 $\mu$m in diameter) dispersed in a Newtonian silicon oil. The agreement is shown to be satisfactory. Furthermore, the comparison between the simulations conducted either with a constant or a load-dependent friction coefficient provides a model for the shear-thinning viscosity. In this model the effective friction coefficient $\mu^{eff}$ is specified by the effective normal contact force which is simply proportional to the bulk shear stress. As the shear stress increases, $\mu^{eff}$ decreases and the jamming volume fraction increases, leading to the reduction of the viscosity. At last, using this model, we show that it is possible to evaluate the microscopic friction coefficient for each applied shear stress from the rheometric measurements.
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Dates et versions

hal-01765759 , version 1 (13-04-2018)
hal-01765759 , version 2 (01-01-2019)

Identifiants

Citer

Laurent Lobry, Elisabeth Lemaire, Frederic Blanc, Stany Gallier, François Peters. Shear thinning in non-Brownian suspensions explained by variable friction between particles. Journal of Fluid Mechanics, 2019, 860, pp.682-710. ⟨10.1017/jfm.2018.881⟩. ⟨hal-01765759v1⟩
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