Instability mechanism at driven contact lines

Publication information:

Michael P. Brenner. 1993. “Instability Mechanism at Driven Contact Lines”. Physical Review E, 47, 6, Pp. 4597–4599. doi:10.1103/physreve.47.4597

- BibTeX
- EndNote X3 XML
- EndNote 7 XML
- Endnote tagged
- Marc
- PubMedId
- RIS

Abstract

An explanation of the mechanism for the fingering instability at driven contact lines is presented. Semiquantitative predictions for the growth of the fingers as a function of time, the most unstable wavelength, and the initial growth rate are deduced, These predictions are consistent with recent experiments of de Bruyn [Phys. Rev. A 46, R4500 (1992)].