Self folding curved origami
ORAL
Abstract
In traditional origami facets are connected through rectilinear creases whose angle is actively set by the operator. In a self-folding scenario, setting the folding angle along a crease requires a load concentrated along a line. As a consequence, self-folding origami structures tend to be floppy and are limited to small scales. In contrast, the bending energy of the whole area of the facets can be harvested to fold efficiently a curved crease. Such bending is readily achieved through a classical bilayer effect, which open applications to self-folding origami structures.
This concept raises many fundamental questions involving mechanics and geometry. What are the ingredients that dictate the folding angles in an elementary unit? Can different units be assembled in a compatible way? Are tessellated structures achievable?
This concept raises many fundamental questions involving mechanics and geometry. What are the ingredients that dictate the folding angles in an elementary unit? Can different units be assembled in a compatible way? Are tessellated structures achievable?
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Presenters
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José Bico
Physique et Mecanique des Milieux Hetero, PMMH, ESPCI-Paris
Authors
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Haotian Xiao
PMMH, ESPCI-Paris
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Tian Gao
PMMH, ESPCI-Paris, Physique et Mécanique des Milieux Hétérogènes
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Etienne Reyssat
PMMH, ESPCI-Paris
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Benoit Roman
Physique et Mecanique des Milieux Heterogenes, PMMH, ESPCI-Paris
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Antonio DeSimone
SISSA, Trieste
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Tiffany Cheng
ICD, Stuttgart University
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Yasaman Tahouni
ICD, Suttgart University
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Ekin Sahin
ICD, Stuttgart University
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Dylan Wood
ICD, Stuttgart University
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Achim Menges
ICD, Stuttgart University
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José Bico
Physique et Mecanique des Milieux Hetero, PMMH, ESPCI-Paris