Delayed bifurcation in elastic snap-through instabilities

TL;DR

This paper investigates how the rate of end-shortening affects the timing of snap-through in elastic arches, revealing delayed bifurcation phenomena and providing analytical and numerical insights into the lag in instability transition.

Contribution

It introduces an asymptotic reduction approach to model delayed bifurcation in elastic snap-through and derives scaling laws applicable to similar elastic instabilities.

Findings

Snap-through delay depends on loading rate.

Asymptotic analysis matches numerical simulations.

Scaling laws predict lag in elastic instabilities.

Abstract

We study elastic snap-through induced by a control parameter that evolves dynamically. In particular, we study an elastic arch subject to an end-shortening that evolves linearly with time, i.e. at a constant rate. For large end-shortening the arch is bistable but, below a critical end-shortening, the arch becomes monostable. We study when and how the arch transitions between states and show that the end-shortening at which the fast 'snap' happens depends on the rate at which the end-shortening is reduced. This lag in snap-through is a consequence of delayed bifurcation and occurs even in the perfectly elastic case when viscous (and viscoelastic) effects are negligible. We present the results of numerical simulations to determine the magnitude of this lag as the loading rate and the importance of external viscous damping vary. We also present an asymptotic analysis of the geometrically-nonlinear problem that reduces the salient dynamics to that of an ordinary differential equation; the form of this reduced equation is generic for snap-through instabilities in which the relevant control parameter is ramped linearly in time. Moreover, this asymptotic reduction allows us to derive analytical results for the observed lag in snap-through that are in good agreement with the numerical results of our simulations. Finally, we discuss scaling laws for the lag that should be expected in other examples of delayed bifurcation in elastic instabilities.