Issue 25, 2023

Ferrofluid drop impacts and Rosensweig peak formation in a non-uniform magnetic field

Abstract

Vertical drop impacts of ferrofluids onto glass slides in a non-uniform magnetic field have been studied using high-speed photography. Outcomes have been classified based on the motion of the fluid-surface contact lines, and formation of peaks (Rosensweig instabilities) which affect the height of the spreading drop. The largest peaks are nucleated at the edge of a spreading drop, similarly to crown-rim instabilities in drop impacts with conventional fluids, and remain there for an extended time. Impact Weber numbers ranged from 18.0 to 489, and the vertical component of the B-field was varied between 0 and 0.37 T at the surface by changing the vertical position of a simple disc magnet placed below the surface. The falling drop was aligned with the vertical cylindrical axis of the 25 mm diameter magnet, and the impacts produced Rosensweig instabilities without splashing. At high magnetic flux densities a stationary ring of ferrofluid forms approximately above the outer edge of the magnet.

Graphical abstract: Ferrofluid drop impacts and Rosensweig peak formation in a non-uniform magnetic field

Supplementary files

Article information

Article type
Paper
Submitted
30 May 2023
Accepted
04 Jun 2023
First published
09 Jun 2023

Soft Matter, 2023,19, 4676-4685

Ferrofluid drop impacts and Rosensweig peak formation in a non-uniform magnetic field

A. Cordwell, A. A. Chapple, S. Chung, F. S. Wells and G. R. Willmott, Soft Matter, 2023, 19, 4676 DOI: 10.1039/D3SM00701D

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