Abstract

Air film stability underneath a drop is crucial for drop contact dynamics upon impact. An unstable film leads to the drop contacting the surface and subsequent spreading or splashing. Apart from previously reported film and kink contact modes, here we present the experimental evidence for a dimple failure mode of an air film, driven by a thin film instability when a drop impacts onto an atomically smooth surface. The dimple failure occurs beyond the inertial-capillary timescale and is initiated when the dimple inverts at the drop's central axis. For the same impact Weber number, the dimple failure observed in low-viscosity drops is absent at a higher viscosity, due to damping of capillary waves.Received 28 August 2020Accepted 23 March 2021DOI:https://doi.org/10.1103/PhysRevFluids.6.044002©2021 American Physical SocietyPhysics Subject Headings (PhySH)Research AreasCapillary wavesDrop breakupDrop coalescenceDrop interactionsDrops & bubblesThin fluid filmsFluid Dynamics