Marise V. Gielen, Riëlle de Ruiter, Robin B. J. Koldeweij, Detlef Lohse, Jacco H. Snoeijer, Hanneke Gelderblom
Published 2019-04-23Version 1
Hot liquid metal drops impacting onto a cold substrate solidify during their subsequent spreading. Here we experimentally study the influence of solidification on the outcome of an impact event. Liquid tin drops are impacted onto sapphire substrates of varying temperature. The impact is visualised both from the side and from below, which provides a unique view on the solidification process. During spreading an intriguing pattern of radial ligaments rapidly solidifies from the centre of the drop. This pattern determines the late-time morphology of the splat. A quantitative analysis of the drop spreading and ligament formation is supported by scaling arguments. Finally, a phase diagram for drop bouncing, deposition and splashing as a function of substrate temperature and impact velocity is provided.
A criterion for the pinning and depinning of an advancing contact line on a cold substrate
Role of melting and solidification in the spreading of an impacting water drop
A New Smoothed Particle Hydrodynamics (SPH) Formulation for Modelling Heat Conduction with Solidification and Melting
![QR code for arXiv:1904.10214 [physics.flu-dyn]](http://oss.arxitics.com/images/favicon.svg)