Unfolding the Sulcus
Abstract
Sulci are localized furrows on the surface of soft materials that form by a compression-induced instability. We unfold this instability by breaking its natural scale and translation invariance, and compute a limiting bifurcation diagram for sulcfication showing that it is a scale-free, sub-critical {\em nonlinear} instability. In contrast with classical nucleation, sulcification is {\em continuous}, occurs in purely elastic continua and is structurally stable in the limit of vanishing surface energy. During loading, a sulcus nucleates at a point with an upper critical strain and an essential singularity in the linearized spectrum. On unloading, it quasi-statically shrinks to a point with a lower critical strain, explained by breaking of scale symmetry. At intermediate strains the system is linearly stable but nonlinearly unstable with {\em no} energy barrier. Simple experiments confirm the existence of these two critical strains.
Cite
@article{arxiv.1008.0694,
title = {Unfolding the Sulcus},
author = {Evan Hohlfeld and L. Mahadevan},
journal= {arXiv preprint arXiv:1008.0694},
year = {2011}
}
Comments
Main text with supporting appendix. Revised to agree with published version. New result in the Supplementary Information