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Article Dans Une Revue Advanced Materials Année : 2024

Anisotropic Morphing in Bistable Kirigami Through Symmetry Breaking and Geometric Frustration

Résumé

Abstract Shape morphing in bistable kirigami enables remarkable functionalities appealing to a diverse range of applications across the spectrum of length scale. At the core of their shape shifting lies the architecture of their repeating unit, where highly deformable slits and quasi‐rigid rotating units often exhibit multiple symmetries that confers isotropic deployment obeying uniform scaling transformation. In this work, symmetry breaking in bistable kirigami is investigated to access geometric frustration and anisotropic morphing, enabling arbitrarily scaled deployment in planar and spatial bistable domains. With an analysis on their symmetry properties complemented by a systematic investigation integrating semi‐analytical derivations, numerical simulations, and experiments on elastic kirigami sheets, this work unveils the fundamental relations between slit symmetry, geometric frustration, and anisotropic bistable deployment. Furthermore, asymmetric kirigami units are leveraged in planar and flat‐to‐3D demonstrations to showcase the pivotal role of shear deformation in achieving target shapes and functions so far unattainable with uniformly stretchable kirigami. The insights provided in this work unveil the role of slit symmetry breaking in controlling the anisotropic bistable deployment of soft kirigami metamaterials, enriching the range of achievable functionalities for applications spanning deployable space structures, wearable technologies, and soft machines. This article is protected by copyright. All rights reserved

Dates et versions

hal-04484948 , version 1 (01-03-2024)

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Chuan Qiao, Deepak Kumar Pokkalla, Nicholas d'Ambrosio, Damiano Pasini. Anisotropic Morphing in Bistable Kirigami Through Symmetry Breaking and Geometric Frustration. Advanced Materials, In press, ⟨10.1002/adma.202313198⟩. ⟨hal-04484948⟩
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