Elastic Snap-Through Instabilities Are Governed by Geometric Symmetries.

Many elastic structures exhibit rapid shape transitions between two possible equilibrium states: umbrellas become inverted in strong wind and hopper popper toys jump when turned inside out. This snap through is a general motif for the storage and rapid release of elastic energy, and it is exploited by many biological and engineered systems from the Venus flytrap to mechanical metamaterials. Shape transitions are known to be related to the type of bifurcation the system undergoes, however, to date, there is no general understanding of the mechanisms that select these bifurcations. Here we analyze numerically and analytically two systems proposed in recent literature in which an elastic strip, initially in a buckled state, is driven through shape transitions by either rotating or translating its boundaries. We show that the two systems are mathematically equivalent, and identify three cases that illustrate the entire range of transitions described by previous authors. Importantly, using reduction order methods, we establish the nature of the underlying bifurcations and explain how these bifurcations can be predicted from geometric symmetries and symmetry-breaking mechanisms, thus providing universal design rules for elastic shape transitions.

[1]  E. Kanso,et al.  Dynamic behavior of elastic strips near shape transitions , 2023, Physical Review E.

[2]  L. Mahadevan,et al.  Forward and inverse problems in the mechanics of soft filaments , 2018, Royal Society Open Science.

[3]  H. Wada,et al.  Snap-buckling in asymmetrically constrained elastic strips. , 2017, Physical review. E.

[4]  Derek E. Moulton,et al.  Critical slowing down in purely elastic ‘snap-through’ instabilities , 2016, Nature Physics.

[5]  Thomas C. Hull,et al.  Using origami design principles to fold reprogrammable mechanical metamaterials , 2014, Science.

[6]  Derek E. Moulton,et al.  Dynamics of snapping beams and jumping poppers , 2013, 1310.3703.

[7]  Elsen Tjhung,et al.  Spontaneous symmetry breaking in active droplets provides a generic route to motility , 2012, Proceedings of the National Academy of Sciences.

[8]  A Ruina,et al.  Elastic instability model of rapid beak closure in hummingbirds. , 2011, Journal of theoretical biology.

[9]  E. Lauga,et al.  Efficiency optimization and symmetry-breaking in a model of ciliary locomotion , 2010, 1007.2101.

[10]  Ali H. Nayfeh,et al.  Exact solution and stability of postbuckling configurations of beams , 2008 .

[11]  L. Mahadevan,et al.  How the Venus flytrap snaps , 2005, Nature.

[12]  Michael Gomez Ghosts and bottlenecks in elastic snap-through , 2018 .

[13]  E. Knobloch,et al.  Symmetry and Symmetry-Breaking Bifurcations in Fluid Dynamics , 1991 .

[14]  C. Ruiz,et al.  Applied Solid Mechanics , 2009 .