We study the rheology of model colloidal suspensions using molecular-dynamics simulations. We relate the onset of shear thickening to the transition from a low-viscosity regime, in which the solvent facilitates the flow of colloids, to a high-viscosity regime associated with jamming of the colloids and the formation of chains of colloids. In the low-viscosity regime, the colloidal particles are, on average, surrounded by two layers of solvent particles. On the contrary, in the high-viscosity regime, the solvent is expelled from the interstice between the jammed colloids. The thickening in suspensions is shown to obey the same criterion as in simple fluids. This demonstrates that jamming, even without the divergence of lubrication interactions, is sufficient to observe shear thickening.
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15 August 2005
Research Article|
August 25 2005
Shear thickening in a model colloidal suspension
Jerome Delhommelle;
Jerome Delhommelle
a)
Department of Chemical Engineering,
Vanderbilt University
, 118 Olin Hall, Nashville, Tennesee 37235-1604
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J. Petravic
J. Petravic
School of Chemistry,
The University of Sydney
, New South Wales 2006, Australia
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a)
Electronic mail: [email protected]
J. Chem. Phys. 123, 074707 (2005)
Article history
Received:
February 23 2005
Accepted:
June 30 2005
Citation
Jerome Delhommelle, J. Petravic; Shear thickening in a model colloidal suspension. J. Chem. Phys. 15 August 2005; 123 (7): 074707. https://doi.org/10.1063/1.2007667
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