surfacetensiondriven

Surfacetensiondriven (often written as surface-tension-driven) describes phenomena in which surface tension acts as the primary force that drives fluid motion and interface deformation. It commonly applies to flows near air-liquid or liquid-liquid interfaces, including capillary rise, droplet formation, jet breakup, spreading and wetting, and coating processes.

Key mechanisms include Laplace pressure from curvature, and Marangoni stresses from surface tension gradients caused by

Examples and applications include inkjet printing droplet ejection, microfluidic droplet generation, thin-film coating and slot-die coating,

Modeling and measurement methods used to study surfacetensiondriven phenomena include computational approaches such as Volume of