Turning drops into bubbles: Elastic cavitation by diffusion
Abstract
Some members of the vegetal kingdom can achieve surprisingly fast movements making use of a clever combination of evaporation, elasticity and cavitation. In this process, enthalpic energy is transformed into elastic energy and suddenly released in a cavitation event which produces kinetic energy. Here we study this uncommon energy transformation by a model system: a droplet in an elastic medium shrinks slowly by diffusion and eventually transforms into a bubble by a rapid cavitation event. The experiments reveal the cavity dynamics over the extremely disparate timescales of the process, spanning 9 orders of magnitude. We model the initial shrinkage as a classical diffusive process, while the sudden bubble growth and oscillations are described using an inertial-(visco)elastic model, in excellent agreement with the experiments. Such a model system could serve as a new paradigm for motile synthetic materials.
Cite
@article{arxiv.1901.02812,
title = {Turning drops into bubbles: Elastic cavitation by diffusion},
author = {M. A. Bruning and M. Costalonga and J. H. Snoeijer and A. Marin},
journal= {arXiv preprint arXiv:1901.02812},
year = {2019}
}
Comments
6 pages, 5 figures