Programming curvature using origami tessellations

Nature Materials
L DudteL Mahadevan

Abstract

Origami describes rules for creating folded structures from patterns on a flat sheet, but does not prescribe how patterns can be designed to fit target shapes. Here, starting from the simplest periodic origami pattern that yields one-degree-of-freedom collapsible structures-we show that scale-independent elementary geometric constructions and constrained optimization algorithms can be used to determine spatially modulated patterns that yield approximations to given surfaces of constant or varying curvature. Paper models confirm the feasibility of our calculations. We also assess the difficulty of realizing these geometric structures by quantifying the energetic barrier that separates the metastable flat and folded states. Moreover, we characterize the trade-off between the accuracy to which the pattern conforms to the target surface, and the effort associated with creating finer folds. Our approach enables the tailoring of origami patterns to drape complex surfaces independent of absolute scale, as well as the quantification of the energetic and material cost of doing so.

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Citations

May 4, 2017·Advanced Materials·Elisa BoattiKatia Bertoldi
May 19, 2017·Nature Communications·Matthew B PinsonArvind Murugan
Mar 8, 2017·Proceedings. Mathematical, Physical, and Engineering Sciences·H NassarL Monasse
May 10, 2017·Proceedings. Mathematical, Physical, and Engineering Sciences·Keyao SongZhong You
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Jan 20, 2017·Nature·Johannes T B OverveldeKatia Bertoldi
Mar 8, 2018·Advanced Materials·Hongbin FangKon-Well Wang
Feb 15, 2018·Proceedings of the National Academy of Sciences of the United States of America·Zirui ZhaiHanqing Jiang
Aug 4, 2018·Advanced Materials·Chunfeng WangSheng Xu
Sep 27, 2018·Soft Matter·Zeang ZhaoDaining Fang
Sep 30, 2016·Science Advances·Toen CastleRandall D Kamien
Oct 20, 2018·Soft Matter·Noah P MitchellHeinrich M Jaeger
Dec 5, 2018·Soft Matter·Paolo CelliChiara Daraio
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