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Bistable Auxetic Mechanical Metamaterials Inspired by Ancient Geometric Motifs

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  • A. Rafsanjani
  • D. Pasini

Abstract

Auxetic materials become thicker rather than thinner when stretched, exhibiting an unusual negative Poisson?s ratio well suited for designing shape transforming metamaterials. Current auxetic designs, however, are often monostable and cannot maintain the transformed shape upon load removal. Here, inspired by ancient geometric motifs arranged in square and triangular grids, we introduce a class of switchable architected materials exhibiting simultaneous auxeticity and structural bistability. The material concept is experimentally realized by perforating various cut motifs into a sheet of rubber, thus creating a network of rotating units connected with compliant hinges. The metamaterial performance is assessed through mechanical testing and accurately predicted by a coherent set of finite element simulations. A discussion on a rich set of mechanical phenomena follows to shed light on the main design principles governing bistable auxetics.

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  • A. Rafsanjani & D. Pasini, "undated". "Bistable Auxetic Mechanical Metamaterials Inspired by Ancient Geometric Motifs," Working Paper 457346, Harvard University OpenScholar.
    • Handle: RePEc:qsh:wpaper:457346
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    File URL: http://scholar.harvard.edu/rafsanjani/node/457346
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    Cited by:

    1. Amin Jamalimehr & Morad Mirzajanzadeh & Abdolhamid Akbarzadeh & Damiano Pasini, 2022. "Rigidly flat-foldable class of lockable origami-inspired metamaterials with topological stiff states," Nature Communications, Nature, vol. 13(1), pages 1-14, December.

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