Programming curvature using origami tessellations
TLDR
In this article, 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.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.read more
Citations
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Reading at exposed surfaces: theoretical insights into photocatalytic activity of ZnWO4
Amanda F. Gouveia,Marcelo Assis,Laécio S. Cavalcante,Laécio S. Cavalcante,Lourdes Gracia,Elson Longo,Juan Andrés +6 more
TL;DR: In this paper, the authors present the major computational challenges and modern methodological strategies toward advancing the field of molecular morphological analysis of semiconductors and discuss the key concepts developed in recent years to clarify the morphology, i.e., the exposed surfaces of materials and explain its functional properties or performance.
Geometric and Topological Aspects of Soft & Active Matter
TL;DR: In this article, the problem of designing a pattern of holes in a thin elastic sheet to engineer a specific mechanical response was considered, and it was shown that holes act as sources of geometric incompatibility, which can fruitfully guide design principles for kirigami metamaterials.
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Hydrogel-driven origami metamaterials for tunable swelling behavior
TL;DR: In this article, the authors proposed three synergistic mechanical designs with positive/negative/zero tunable swelling deformation by adjusting the opening direction of the circular holes of origami metamaterials.
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Shaping dynamical folding and misfolding pathways in mechanical metamaterials
TL;DR: In this paper, the authors derive design principles to shape dynamical folding and misfolding pathways in disordered mechanical systems, i.e., sequences of states traversed at a finite rate, are determined by the bifurcation structure of configuration space, which can be tuned using imperfections such as stiff joints.
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Design of Cylindrical and Axisymmetric Origami Structures Based on Generalized Miura-Ori Cell
TL;DR: In this article, the cylindrical and axisymmetric origami structures are constructed and then replicated longitudinally/circumferentially to form the cylinders and axisysmetric structures, which are rigid-foldable with a single degree-of-freedom.
References
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Journal ArticleDOI
Spontaneous formation of ordered structures in thin films of metals supported on an elastomeric polymer
TL;DR: In this paper, the authors describe the appearance of complex, ordered structures induced by the buckling of thin metal films owing to thermal contraction of an underlying substrate, and account qualitatively for the size and form of the patterned features in terms of the nonuniform stresses developed in the film near steps on the polymer substrate.
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Using origami design principles to fold reprogrammable mechanical metamaterials
Jesse L. Silverberg,Arthur A. Evans,Lauren McLeod,Ryan C. Hayward,Thomas C. Hull,Christian D. Santangelo,Itai Cohen +6 more
TL;DR: Working with the Miura-ori tessellation, it is found that each unit cell of this crease pattern is mechanically bistable, and by switching between states, the compressive modulus of the overall structure can be rationally and reversibly tuned.
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Geometry of Miura-folded metamaterials
Mark Schenk,Simon D. Guest +1 more
TL;DR: This paper describes two folded metamaterials based on the Miura-ori fold pattern, where the fold pattern provides a negative Poisson’s ratio for in-plane deformations and a positive Poisson's ratio for out-of-plane bending.
Book
Geometric Folding Algorithms: Linkages, Origami, Polyhedra
Erik D. Demaine,Joseph O'Rourke +1 more
TL;DR: Aimed primarily at advanced undergraduate and graduate students in mathematics or computer science, this lavishly illustrated book will fascinate a broad audience, from high school students to researchers.