Droplets Suspended Beneath a Fiber Hub

Abstract

Droplet-fiber interactions, prevalent in nature and widely applied across various engineering fields, have garnered significant research interest. Many works have focused on the interactions between droplets and single or two fibers. However, the wetting behavior of droplets, especially the maximum droplets that can be retained, on fiber hubs formed by many fibers is rarely studied. The current work explores the capability of fiber hubs to retain liquid droplets. We develop analytical and semi-empirical models to predict the maximum droplet volume on a fiber hub, validating them against experimental data. The variation of maximum volume follows two distinct regimes as the fiber count increases, with a critical fiber number (n* = 32) marking the transition between them. In Regime I (n n*), the volume increases with fiber number, and the stability of a droplet is dictated by the pinning of three-phase contact lines. In Regime II (n>n*), the volume plateaus, with droplets under a fiber hub behaving similarly to those on a flat surface, where the stability is governed by Rayleigh-Taylor instability.

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