Dehydration induced mechanical instabilities in active elastic spherical shells

TL;DR

This paper investigates the chemo-mechanical instability in swollen spherical shells during dehydration, combining numerical simulations and a semi-analytical model to understand the onset of active-elastic instabilities.

Contribution

It introduces a semi-analytical model for active-elastic instability in dehydrating spherical shells, validated against numerical experiments, highlighting effects of inhomogeneities.

Findings

Semi-analytical model aligns with numerical results.

Inhomogeneous shells exhibit a wider range of instabilities.

Volume invariance at instability onset due to water confinement.

Abstract

Active-elastic instabilities are common phenomena in the natural world which have the aspect of sudden mechanical morphings. Frequently, the driving force of the instability mechanisms has a chemo-mechanical nature which makes these kind of instabilities very different from standard elastic instabilities. In this paper, we describe and study the active-elastic instability occurring in a swollen spherical closed shell, bounding a water filled cavity, during a de-hydration process. The description is given through the outcomes of a few numerical experiments based on a stress-diffusion model which allows to glance at the phenomenon. The study is carried on from a chemo-mechanical perspective through a few simplifying assumptions which allow to derive a semi-analytical model which takes into account both the stress state and the water concentration into the walls of the shell at the onset of the instability. Moreover, also the invariance of the cavity volume at the onset of instability, which is due to the impossibility to instantaneously change the cavity volume filled with water, is considered. It is shown as the semi-analytic model matches very well the outcome of the numerical experiments. It is also shown as a wider range of mechanical instabilities can be produced when inhomogeneous shells are considered, even when the inhomogeneities can be described by a small number of parameters.