English

Non-wetting drop dynamics

Fluid Dynamics 2021-11-16 v2

Abstract

The impact of droplets on solids or weakly-deformable surfaces can lead to non-wetting outcomes, depending on the control parameters. Here, we perform experiments and develop a simple model to understand the impact dynamics by varying three important drop parameters: the Ohnesorge number Oh\mathcal{O}h, the Bond number Bo\mathcal{B}o and the Weber number We\mathcal{W}e. The model suggests that the droplet dynamics is captured by only two non-dimensional groups, namely  Oh\ \mathcal{O}h and ξ=Bo/We\xi = \mathcal{B}o/\sqrt{\mathcal{W}e}. For ξ1\xi \ll 1, the droplet dynamics is fully dominated by Oh\mathcal{O}h, but for ξ1\xi \gg 1, the dynamics depends both on Oh\mathcal{O}h and ξ\xi. While the model results show some discrepancies for small Oh\mathcal{O}h, they are in very good agreement with the experiments for moderately large Oh\mathcal{O}h. The work thereby offers an elaborate description of the droplet impact dynamics in a non-wetting scenario.

Keywords

Cite

@article{arxiv.2111.03970,
  title  = {Non-wetting drop dynamics},
  author = {Srinath Lakshman and Vatsal Sanjay and Pierre Chantelot and Jacco H. Snoeijer and Detlef Lohse},
  journal= {arXiv preprint arXiv:2111.03970},
  year   = {2021}
}

Comments

The manuscript was prematurely submitted by me (first author, Lakshman), without the consent of any of the other co-authors

R2 v1 2026-06-24T07:29:06.085Z