2009
DOI: 10.1103/physreve.80.011901
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Dynamical regimes and hydrodynamic lift of viscous vesicles under shear

Abstract: The dynamics of two-dimensional viscous vesicles in shear flow, with different fluid viscosities etain and etaout inside and outside, respectively, is studied using mesoscale simulation techniques. Besides the well-known tank-treading and tumbling motions, an oscillatory swinging motion is observed in the simulations for large shear rate. The existence of this swinging motion requires the excitation of higher-order undulation modes (beyond elliptical deformations) in two dimensions. Keller-Skalak theory is ext… Show more

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Cited by 78 publications
(109 citation statements)
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“…The data also show that it is difficult to reach the low shearrate plateau in simulations. This is due to the importance of thermal motion at low shear rates, but may also be related to the broad TT-to-TU transition in 2D [24] where some tumbling events already appear in the TT regime. This shear-thinning is mainly due to the formation of cellfree layers near the walls, as expected from the Fåhraeus-Lindqvist effect [27].…”
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confidence: 99%
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“…The data also show that it is difficult to reach the low shearrate plateau in simulations. This is due to the importance of thermal motion at low shear rates, but may also be related to the broad TT-to-TU transition in 2D [24] where some tumbling events already appear in the TT regime. This shear-thinning is mainly due to the formation of cellfree layers near the walls, as expected from the Fåhraeus-Lindqvist effect [27].…”
mentioning
confidence: 99%
“…In two dimensions, the TT-to-TU transition is predicted to occur at λ c ≃ 3.7 for A * = 0.8 in the Keller-Skalak (KS) theory [2]. However, thermal vesicle undulations, which are neglected in KS theory, produce a continuous crossover from TT to TU for bending rigidities around κ = 6.4k B T R 0 [24], with A * = 0.7 and γ * 6. Thus, our simulation results of increasing η I (λ) are in qualitative agreement with the experimental results of ref.…”
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confidence: 99%
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