Microscopic mechanism for the shear-thickening of non-Brownian suspensions

David Rinaldi; Dirk Kadau; Hans J. Herrmann; Helene Lombois-Burger; Juliette Cayer-Barrioz; Lucio Isa; Martin Mosquet; Nicholas D. Spencer; Nicolas Fernandez; Roman Mani

arxiv: 1308.1002 · v1 · pith:57C36DR3new · submitted 2013-08-05 · ❄️ cond-mat.soft

Microscopic mechanism for the shear-thickening of non-Brownian suspensions

Nicolas Fernandez , Roman Mani , David Rinaldi , Dirk Kadau , Martin Mosquet , Helene Lombois-Burger , Juliette Cayer-Barrioz , Hans J. Herrmann

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Nicholas D. Spencer Lucio Isa

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classification ❄️ cond-mat.soft

keywords shear-thickeningtransitionfrictionlubricationsimulationsboundarycoefficientcontact-dynamics

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We propose a simple model, supported by contact-dynamics simulations as well as rheology and friction measurements, that links the transition from continuous to discontinuous shear-thickening in dense granular pastes to distinct lubrication regimes in the particle contacts. We identify a local Sommerfeld number that determines the transition from Newtonian to shear-thickening flows, and then show that the suspension's volume fraction and the boundary lubrication friction coefficient control the nature of the shear-thickening transition, both in simulations and experiments.

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Microscopic mechanism for the shear-thickening of non-Brownian suspensions

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