Maximum droplet volume on cylindrical surfaces
Abstract
The maximum volume () of a droplet that can remain attached to a horizontal fiber defines the stability limit of droplet-fiber interactions, phenomena common in nature and critical to diverse engineering applications. Existing predictive models for show limitations in accurately capturing the dependence of on fiber size and wettability. To address this gap, we systematically investigate on a horizontal fiber through numerical simulations and experiments. A comprehensive semi-empirical model for is developed and validated against both experimental measurements and reference simulations. This model establishes a new scaling under which the normalized maximum droplet volume depends solely on the contact angle and remains valid across a wide spectrum from a sub-millimeter thin fiber to the flat-surface limit, regardless of the diverse morphologies that droplets exhibit.
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