Landau-Levich flow visualization: Revealing the flow topology responsible for the film thickening phenomena

Mayer, Hans C.; Krechetnikov, Rouslan

doi:10.1063/1.4703924

Cited by 61 publications

(51 citation statements)

References 80 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…Much less is known concerning the flow inside the bath. At least it was shown that different flow regimes can be observed, but the liquid flows at any point inside the bath [4], so that the transition from the bath to the surface is smooth.…”

Section: Introductionmentioning

confidence: 98%

Flow characteristics around a plate withdrawn from a bath of yield stress fluid

Maillard

Boujlel

Coussot

2015

Journal of Non-Newtonian Fluid Mechanics

View full text Add to dashboard Cite

International audienceDip-coating is a process widely used in industry to coat a fluid on a solid substrate. The general charac-teristics of dip-coating for simple liquids (Newtonian) are well known but a lot of applications involve complex fluids. Here we focus on the case of a solid plate coated with a yield stress fluid through the immersion followed by the withdrawal of a plate from a bath of such fluid. We carried out a precise anal-ysis of the force applied to the plate during its withdrawal from the bath, and determined the velocity field developed around the plate in the fluid bath with the PIV technique. It appears that, inside the bath, after a transient regime during the plate withdrawal, a linear force regime is set up, which is associated with a stationary uniform flow (liquid region) settled along the plate while the rest of the material is in its solid regime. We show that the thickness of this liquid region increases slowly with the plate velocity and its value is almost the same for immersion and withdrawal, and independent of a possible period of rest preceding plate motion. Finally we show that the thickness of the liquid region is related to the force in the linear regime

show abstract

Section: Introductionmentioning

confidence: 98%

Flow characteristics around a plate withdrawn from a bath of yield stress fluid

Maillard

Boujlel

Coussot

2015

Journal of Non-Newtonian Fluid Mechanics

View full text Add to dashboard Cite

show abstract

“…First, considering a constant electric field (even in the dynamic meniscus) should be examined in more detail. The stick boundary condition for the velocity at the interface should also be scrutinized and explored with other types of surfactants; indeed, the variations of the numerical prefactor in the Frankel's law versus surfactant type are still a subject of active debate [17][18][19]. Eventually, polarization effects near the surfaces result in deviations from continuous description, suggesting that Poisson-Boltzmann theory is questionable in these films [20].…”

mentioning

confidence: 99%

Soft Nanofluidic Transport in a Soap Film

et al. 2013

View full text Add to dashboard Cite

We investigate experimentally the electrokinetic properties of soft nanofluidic channels that consist in soap films with nanometric thickness, covered with charged surfactants. Both the electric and fluidic responses of the system are measured under an applied voltage drop along the film. The electric field is shown to induce an electro-osmotic hydrodynamic flow in the film. However, in contrast to systems confined between solid surfaces, the soft nature of the nanochannel results furthermore in a thickening of the film. This effect accordingly increases the total electro-osmotic flow rate, which behaves nonlinearly with the applied electric field. This behavior is rationalized in terms of an analogy with a Landau-Levich film withdrawn from a reservoir, with the driving velocity identified here with the electro-osmotic one.

show abstract

“…This equation was established assuming that the thickness of fluid layer is homogeneous due to a delicate balance between the viscous drag and the wetting property (adhesion) of the fluid with the substrate surface [31,32]. Therefore, the thickness of the PAN films in our experiments was controlled by adjusting the solution Table 2).…”

Section: Pan Films Deposited By Dip-coatingmentioning

confidence: 99%