Analyzing the bi-directional dynamic morphing of a bi-stable water-bomb base origami

摘要

Morphing structures have been a subject of much research recently because of their promising potentials in aerospace,wind turbine, and many other applications. There exists many different approaches to achieve shape morphing, amongwhich the origami-inspired folding is particularly interesting in that folding is fundamentally three-dimensional, scalable,and customizable. However, activating and attaining large amplitude folding autonomously are challenging. Activematerials, such as shape memory alloys, have been used to activate folding, but they are limited due to the power supplyrequirement to maintain the folded configurations. One possible solution is to embed bi-stability into the origami structure.Bi-stability can play two significant roles: First, it can significantly reduce the actuation requirement to induce shapemorning; and second, it can maintain the shape change without demanding sustained energy supply. In this study, wedemonstrate the feasibility of using dynamic excitation to induce shape morphing (or folding) between the two stable statesof water-bomb base. For the first time, we derive the dynamic equation of motion for a water-bomb base origami and useit extensively to analyze its time responses under harmonic excitation. Via numerical simulations, we show that byharnessing the intra-well resonance of the water-bomb structure, we can achieve rapid bi-directional morphing usingrelatively low actuation magnitudes in comparison with quasi-static loading.