An analytic form for the pair distribution function and rheology of a dilute suspension of rough spheres in plane strain flow

HELEN J. WILSON

doi:10.1017/S0022112005004623

Abstract

The effect of particle–particle contact on the stress of a suspension of small spheres in plane strain flow is investigated. We provide an analytic form for the particle pair distribution function in the case of no Brownian motion, and calculate the viscosity and normal stress difference based on this. We show that the viscosity is reduced by contact, and a normal stress difference induced, both at order $c^2$ for small particle volume concentration $c$. In addition, we investigate the effect of a small amount of diffusion on the structure of the distribution function, giving a self-consistent form for the density in the $O(aPe^{-1})$ boundary layer and demonstrating that diffusion reduces the magnitude of the contact effect but does not qualitatively alter it.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Yurkovetsky, Yevgeny and Morris, Jeffrey F. 2006. Triplet correlation in sheared suspensions of Brownian particles. The Journal of Chemical Physics, Vol. 124, Issue. 20,

Morris, Jeffrey F. 2009. A review of microstructure in concentrated suspensions and its implications for rheology and bulk flow. Rheologica Acta, Vol. 48, Issue. 8, p. 909.

Kulkarni, Sandeep D. and Morris, Jeffrey F. 2009. Ordering transition and structural evolution under shear in Brownian suspensions. Journal of Rheology, Vol. 53, Issue. 2, p. 417.

Miller, Ryan M. Singh, John P. and Morris, Jeffrey F. 2009. Suspension flow modeling for general geometries. Chemical Engineering Science, Vol. 64, Issue. 22, p. 4597.

Mewis, Jan and Wagner, Norman J. 2009. Current trends in suspension rheology. Journal of Non-Newtonian Fluid Mechanics, Vol. 157, Issue. 3, p. 147.

2011. Colloidal Suspension Rheology. p. 36.

Rognon, Pierre Grégoire Einav, Itai and Gay, Cyprien 2011. Flowing resistance and dilatancy of dense suspensions: lubrication and repulsion. Journal of Fluid Mechanics, Vol. 689, Issue. , p. 75.

Couturier, Étienne Boyer, François Pouliquen, Olivier and Guazzelli, Élisabeth 2011. Suspensions in a tilted trough: second normal stress difference. Journal of Fluid Mechanics, Vol. 686, Issue. , p. 26.

YEO, KYONGMIN and MAXEY, MARTIN R. 2011. Numerical simulations of concentrated suspensions of monodisperse particles in a Poiseuille flow. Journal of Fluid Mechanics, Vol. 682, Issue. , p. 491.

Boyer, François Pouliquen, Olivier and Guazzelli, Élisabeth 2011. Dense suspensions in rotating-rod flows: normal stresses and particle migration. Journal of Fluid Mechanics, Vol. 686, Issue. , p. 5.

Maîtrejean, Guillaume Ammar, Amine Chinesta, Francisco and Grmela, Miroslav 2012. Deterministic solution of the kinetic theory model of colloidal suspensions of structureless particles. Rheologica Acta, Vol. 51, Issue. 6, p. 527.

Nazockdast, Ehssan and Morris, Jeffrey F. 2013. Pair-particle dynamics and microstructure in sheared colloidal suspensions:Simulation and Smoluchowski theory. Physics of Fluids, Vol. 25, Issue. 7,

Tanner, Roger I. Qi, Fuzhong and Dai, Shaocong 2013. Scaling the normal stresses in concentrated non-colloidal suspensions of spheres. Rheologica Acta, Vol. 52, Issue. 4, p. 291.

Denn, Morton M. and Morris, Jeffrey F. 2014. Rheology of Non-Brownian Suspensions. Annual Review of Chemical and Biomolecular Engineering, Vol. 5, Issue. 1, p. 203.

Gallier, Stany Lemaire, Elisabeth Peters, François and Lobry, Laurent 2014. Rheology of sheared suspensions of rough frictional particles. Journal of Fluid Mechanics, Vol. 757, Issue. , p. 514.

Siginer, Dennis A. 2015. Developments in the Flow of Complex Fluids in Tubes. p. 79.

Chu, Henry C. W. and Zia, Roseanna N. 2016. Active microrheology of hydrodynamically interacting colloids: Normal stresses and entropic energy density. Journal of Rheology, Vol. 60, Issue. 4, p. 755.

Richards, Jeffrey J. Wagner, Norman J. and Butler, Paul D. 2017. A strain-controlled RheoSANS instrument for the measurement of the microstructural, electrical, and mechanical properties of soft materials. Review of Scientific Instruments, Vol. 88, Issue. 10,

Guazzelli, Élisabeth and Pouliquen, Olivier 2018. Rheology of dense granular suspensions. Journal of Fluid Mechanics, Vol. 852, Issue. ,

Zia, Roseanna N. 2018. Active and Passive Microrheology: Theory and Simulation. Annual Review of Fluid Mechanics, Vol. 50, Issue. 1, p. 371.

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An analytic form for the pair distribution function and rheology of a dilute suspension of rough spheres in plane strain flow

Abstract

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This article has been cited by the following publications. This list is generated based on data provided by Crossref.

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An analytic form for the pair distribution function and rheology of a dilute suspension of rough spheres in plane strain flow

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