Curling and rolling dynamics of naturally curved ribbonsElectronic supplementary information (ESI) available: The theoretical deduction of a0 and movies. See DOI: 10.1039/c3sm52142g

When a straight rod is bent and suddenly released on one end, a burst of dispersive flexural waves propagates down the material as predicted by linear beam theories. However, we show that for ribbons with a longitudinal natural radius of curvature a 0 , geometrical constraints lead to strain localiz...

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Bibliographic Details
Main Authors: Arriagada, Octavio Albarrán, Massiera, Gladys, Abkarian, Manouk
Format: Article
Language:English
Online Access:Get full text
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Summary:When a straight rod is bent and suddenly released on one end, a burst of dispersive flexural waves propagates down the material as predicted by linear beam theories. However, we show that for ribbons with a longitudinal natural radius of curvature a 0 , geometrical constraints lead to strain localization which controls the dynamics. This localized region of deformation selects a specific curling deformation front which travels down the ribbon when initially flattened and released. Performing experiments on different ribbons, in air and in water, we show that initially, on length scales on the order of a 0 , the curling front moves as a power law of time with an exponent ranging from 0.5 to 2 for increasing values of the ribbons' width. At longer time scales, the material wraps itself at a constant speed V r into a roll of radius R ≠ a 0 . The relationship between V r and R is calculated by a balance between kinetic, elastic and gravitational energy and both internal and external powers dissipated. When gravity and drag are negligible, we observe that a 0 / R reaches a limiting value of 0.48 that we predict by solving the Elastica on the curled ribbon considering the centrifugal forces due to rotation. The solution we propose represents a solitary traveling curvature wave which is reminiscent to propagating instabilities in mechanics. Fold localization selects the propagation of a solitary curvature wave in straightened naturally curved ribbons leading to its self-winding.
ISSN:1744-683X
1744-6848
DOI:10.1039/c3sm52142g