Issue 21, 2016

Rupture and recoil of bent-core liquid crystal filaments

Abstract

The recoil process of free-standing liquid crystal filaments is investigated experimentally and theoretically. We focus on two aspects, the contraction speed of the filament and a spontaneously formed undulation instability. At the moment of rupture, the filaments buckle similarly to the classical Euler buckling of elastic rods. The tip velocity decays with decreasing filament length. The wavelength of buckling affinely decreases with the retracting filament tip. The energy gain related to the decrease of the total length and surface area of the filaments is mainly dissipated by layer rearrangements during thickening of the fibre. A flow back into the meniscus is relevant only in the final stage of the recoil process. We introduce a model for the quantitative description of the filament retraction speed. The dynamics of this recoil behaviour may find relevance as a model for biology-related filaments.

Graphical abstract: Rupture and recoil of bent-core liquid crystal filaments

Supplementary files

Article information

Article type
Paper
Submitted
03 Feb 2016
Accepted
07 Apr 2016
First published
08 Apr 2016
This article is Open Access
Creative Commons BY-NC license

Soft Matter, 2016,12, 4725-4730

Rupture and recoil of bent-core liquid crystal filaments

S. M. Salili, T. Ostapenko, O. Kress, C. Bailey, W. Weissflog, K. Harth, A. Eremin, R. Stannarius and A. Jákli, Soft Matter, 2016, 12, 4725 DOI: 10.1039/C6SM00290K

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