Modeling the behavior of confined colloidal particles under shear flow

F.E. Mackay; K. Pastor; M.E.J. Karttunen; C. Denniston

doi:10.1039/C4SM01812E

Modeling the behavior of confined colloidal particles under shear flow

F.E. Mackay, K. Pastor, M.E.J. Karttunen, C. Denniston

Research output: Contribution to journal › Article › Academic › peer-review

16 Citations (Scopus)

Abstract

We investigate the behavior of colloidal suspensions with different volume fractions confined between parallel walls under a range of steady shears. We model the particles using molecular dynamics (MD) with full hydrodynamic interactions implemented through the use of a lattice-Boltzmann (LB) fluid. A quasi-2d ordering occurs in systems characterized by a coexistence of coupled layers with different densities, order, and granular temperature. We present a phase diagram in terms of shear and volume fraction for each layer, and demonstrate that particle exchange between layers is required for entering the disordered phase.

Original language	English
Pages (from-to)	8724-8730
Journal	Soft Matter
Volume	10
Issue number	34
DOIs	https://doi.org/10.1039/C4SM01812E
Publication status	Published - 2014
Externally published	Yes

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AU - Pastor, K.

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AU - Denniston, C.

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AB - We investigate the behavior of colloidal suspensions with different volume fractions confined between parallel walls under a range of steady shears. We model the particles using molecular dynamics (MD) with full hydrodynamic interactions implemented through the use of a lattice-Boltzmann (LB) fluid. A quasi-2d ordering occurs in systems characterized by a coexistence of coupled layers with different densities, order, and granular temperature. We present a phase diagram in terms of shear and volume fraction for each layer, and demonstrate that particle exchange between layers is required for entering the disordered phase.

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DO - 10.1039/C4SM01812E

M3 - Article

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VL - 10

SP - 8724

EP - 8730

JO - Soft Matter

JF - Soft Matter

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ER -

Modeling the behavior of confined colloidal particles under shear flow

Abstract

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