2004
DOI: 10.1063/1.1644150
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Dynamic stretching of a planar liquid bridge

Abstract: A thin incompressible viscous planar free liquid film in a void and under zero gravity is analyzed by means of a reduced-dimension ͑lubrication͒ approach. Linear analysis focuses on films with harmonic modulations in the axial film velocity enforced at the ends of the planar bridge. Effects of changes in the problem parameters on the overall distortion characteristics of the film are discussed. Nonlinear film distortion and break-up are investigated for the case of temporally increasing velocity at the end of … Show more

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Cited by 8 publications
(3 citation statements)
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“…The micrometer-sized nasal passages render the conventional solvent-washing approach unfavorable because the capillary effect prevents the solvent from being completely washed out. For instance, the capillary rise of water at 20°C in a channel of 340 mm is 8.8 cm while that in a channel of 100 mm is 30 cm (Mehring, Xi, & Sirignano, 2004). Based on the results in this study, this challenge can be overcome by using a scaled-up model, which eliminates this effect and at the same time makes it easier to prepare, connect, dissect, and measure the airway casts.…”
Section: Discussionmentioning
confidence: 78%
“…The micrometer-sized nasal passages render the conventional solvent-washing approach unfavorable because the capillary effect prevents the solvent from being completely washed out. For instance, the capillary rise of water at 20°C in a channel of 340 mm is 8.8 cm while that in a channel of 100 mm is 30 cm (Mehring, Xi, & Sirignano, 2004). Based on the results in this study, this challenge can be overcome by using a scaled-up model, which eliminates this effect and at the same time makes it easier to prepare, connect, dissect, and measure the airway casts.…”
Section: Discussionmentioning
confidence: 78%
“…This results in a positive feedback scenario where liquid gets pushed out of the high Laplace pressure neck, further increasing the radial curvature, and thus pressure, of the bridge's neck. This process accelerates until the bridge pinches off, and the liquid filament or channel ruptures (Darabi et al 2010;Mehring et al 2004;Papageorgiou 1995).…”
Section: Interfacial Instabilitymentioning
confidence: 99%
“… 61 , 66 Depending on the relative velocity between the airflow, droplet breakup can occur. 67 Similarly, depending on the local droplet concentration, the aerosol cloud effect can change the bulk behavior of the droplet and its subsequent deposition. 68 …”
Section: Devices For Nasal Administrationmentioning
confidence: 99%