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Journal Articles Proceedings of the National Academy of Sciences of the United States of America Year : 2019

Programming curvilinear paths of flat inflatables

Abstract

Inflatable structures offer a path for light deployable structures in medicine, architecture, and aerospace. In this study, we address the challenge of programming the shape of thin sheets of high-stretching modulus cut and sealed along their edges. Internal pressure induces the inflation of the structure into a deployed shape that maximizes its volume. We focus on the shape and nonlinear mechanics of inflated rings and more generally, of any sealed curvilinear path. We rationalize the stress state of the sheet and infer the counterintuitive increase of curvature observed on inflation. In addition to the change of curvature, wrinkles patterns are observed in the region under compression in agreement with our minimal model. We finally develop a simple numerical tool to solve the inverse problem of programming any 2-dimensional (2D) curve on inflation and illustrate the application potential by moving an object along an intricate target path with a simple pressure input.

Domains

Mechanical engineering [physics.class-ph]
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Submitted on : Thursday, September 26, 2019-5:30:14 PM

Last modification on : Friday, April 19, 2024-4:18:55 PM

Long-term archiving on: Monday, February 10, 2020-6:54:16 AM

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hal-02298418 , version 1 (26-09-2019)

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Emmanuel Siéfert, Etienne Reyssat, José Bico, Benoît Roman. Programming curvilinear paths of flat inflatables. Proceedings of the National Academy of Sciences of the United States of America, 2019, 116 (34), pp.16692-16696. ⟨10.1073/pnas.1904544116⟩. ⟨hal-02298418⟩

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