We use the discrete element method, taking particle contact and hydrodynamic lubrication into account, to unveil the shear rheology of suspensions of frictionless non-Brownian rods in the dense packing fraction regime. We find that, analogously to the random close packing volume fraction, the shear-driven jamming point of this system varies in a nonmonotonic fashion as a function of the rod aspect ratio. The latter strongly influences how the addition of rodlike particles affects the rheological response of a suspension of frictionless non-Brownian spheres to an external shear flow. At fixed values of the total (rods plus spheres) packing fraction, the viscosity of the suspension is reduced by the addition of "short"( 2) rods but is instead increased by the addition of "long"( 2) rods. A mechanistic interpretation is provided in terms of packing and excluded-volume arguments.
Shear flow of non-Brownian rod-sphere mixtures near jamming / C. Anzivino, C. Ness, A.S. Moussa, A. Zaccone. - In: PHYSICAL REVIEW. E. - ISSN 2470-0045. - 109:4(2024 Apr), pp. L042601.1-L042601.45. [10.1103/physreve.109.l042601]
Shear flow of non-Brownian rod-sphere mixtures near jamming
C. AnzivinoPrimo
;A. Zaccone
Ultimo
2024
Abstract
We use the discrete element method, taking particle contact and hydrodynamic lubrication into account, to unveil the shear rheology of suspensions of frictionless non-Brownian rods in the dense packing fraction regime. We find that, analogously to the random close packing volume fraction, the shear-driven jamming point of this system varies in a nonmonotonic fashion as a function of the rod aspect ratio. The latter strongly influences how the addition of rodlike particles affects the rheological response of a suspension of frictionless non-Brownian spheres to an external shear flow. At fixed values of the total (rods plus spheres) packing fraction, the viscosity of the suspension is reduced by the addition of "short"( 2) rods but is instead increased by the addition of "long"( 2) rods. A mechanistic interpretation is provided in terms of packing and excluded-volume arguments.
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PhysRevE.109.L042601.pdf
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