Computational analysis of surface-tension-driven coating-defect flow

The instability of a meniscus due to a Marangoni flow is investigated in the case of a mixture of two liquids of different volatility and surface tension. We propose a theoretical description of this behavior which predicts the wavelength of the instability, in agreement with the experiments of Vuil

the liquid and is the surface tension. This choice of timescale makes the scaled surface tension equal to 1; i.e., the A system of partial differential equations that approximate the governing equations for inviscid free surface flow subject to surface Weber number is set to one. Henceforth, only th

When a dilute colloidal suspension of 50-µm polyamide particles is exposed to a deformable interface, spontaneous flow occurs. This flow is orderly, reproducible, and shows a proportional dependence on particle concentration. The same type of flow was also observed in a silicon oil suspension. Placi

A model for Marangoni flows that we observed on plane free surfaces of thin layers of aqueous fatty alcohol solutions is developed by considering evaporation-condensation of alcohol. The velocities of surface-tension-driven flows caused by gradients in temperature and in concentration are evaluated