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Multistable inflatable origami structures at the metre scale

David Melancon, Benjamin Gorissen, Carlos J. García-Mora, Chuck Hoberman () and Katia Bertoldi ()
Additional contact information
David Melancon: Harvard University
Benjamin Gorissen: Harvard University
Carlos J. García-Mora: Harvard University
Chuck Hoberman: Wyss Institute for Biologically Inspired Engineering Harvard University
Katia Bertoldi: Harvard University

Nature, 2021, vol. 592, issue 7855, 545-550

Abstract: Abstract From stadium covers to solar sails, we rely on deployability for the design of large-scale structures that can quickly compress to a fraction of their size1–4. Historically, two main strategies have been used to design deployable systems. The first and most frequently used approach involves mechanisms comprising interconnected bar elements, which can synchronously expand and retract5–7, occasionally locking in place through bistable elements8,9. The second strategy makes use of inflatable membranes that morph into target shapes by means of a single pressure input10–12. Neither strategy, however, can be readily used to provide an enclosed domain that is able to lock in place after deployment: the integration of a protective covering in linkage-based constructions is challenging and pneumatic systems require a constant applied pressure to keep their expanded shape13–15. Here we draw inspiration from origami—the Japanese art of paper folding—to design rigid-walled deployable structures that are multistable and inflatable. Guided by geometric analyses and experiments, we create a library of bistable origami shapes that can be deployed through a single fluidic pressure input. We then combine these units to build functional structures at the metre scale, such as arches and emergency shelters, providing a direct route for building large-scale inflatable systems that lock in place after deployment and offer a robust enclosure through their stiff faces.

Date: 2021
References: Add references at CitEc
Citations: View citations in EconPapers (5)

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DOI: 10.1038/s41586-021-03407-4

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Handle: RePEc:nat:nature:v:592:y:2021:i:7855:d:10.1038_s41586-021-03407-4