Effects of viscoelasticity on shear-thickening in dilute suspensions in a viscoelastic fluid

We investigate previously unclarified effects of fluid elasticity on shear-thickening in dilute suspensions in an Oldroyd-B viscoelastic fluid using a novel direct numerical simulation based on the smoothed profile method. Fluid elasticity is determined by the Weissenberg number Wi and by viscosity...

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Bibliographic Details
Published in:Soft matter 2020-01, Vol.16 (3), p.728-737
Main Authors: Matsuoka, Yuki, Nakayama, Yasuya, Kajiwara, Toshihisa
Format: Article
Language:English
Subjects:
Computer simulation
Conformation
Coupling
Dilution
Direct numerical simulation
Elasticity
Fluid flow
Growth rate
Mathematical models
Polymers
Profile method (forecasting)
Rheological properties
Rheology
Shear thickening (liquids)
Stress
Thickening
Viscoelastic fluids
Viscoelasticity
Viscosity
Viscosity ratio
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Summary:We investigate previously unclarified effects of fluid elasticity on shear-thickening in dilute suspensions in an Oldroyd-B viscoelastic fluid using a novel direct numerical simulation based on the smoothed profile method. Fluid elasticity is determined by the Weissenberg number Wi and by viscosity ratio 1 − β = η p /( η s + η p ) which measures the coupling between the polymer stress and flow: η p and η s are the polymer and solvent viscosity, respectively. As 1 − β increases, while the stresslet does not change significantly compared to that in the β → 1 limit, the growth rate of the normalized polymer stress with Wi was suppressed. Analysis of flow and conformation dynamics around a particle for different β reveals that at large 1 − β , polymer stress modulates flow, leading to suppression of polymer stretch. This effect of β on polymer stress development indicates complex coupling between fluid elasticity and flow, and is essential to understand the rheology and hydrodynamic interactions in suspensions in viscoelastic media. We investigate previously unclarified effects of fluid elasticity on shear-thickening in dilute suspensions in an Oldroyd-B viscoelastic fluid using a novel direct numerical simulation based on the smoothed profile method.
ISSN:1744-683X
1744-6848
DOI:10.1039/c9sm01736d