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Buckling-regulated origami materials with synergy of deployable and undeployable features

2023; Elsevier BV; Volume: 247; Linguagem: Inglês

10.1016/j.ijmecsci.2023.108167

1879-2162

Kai Liu, Pei Li, Zhonggang Wang,

Cellular and Composite Structures

Origami is an emerging class of structural materials that can display remarkable physical and mechanical properties due to its unique deployability, while simple combination of deployable and undeployable features lead to more fantastic mechanical properties because of the extended design freedom. To further exploit the application potential of multiple origami features, a buckling-regulated origami material is proposed in this work by synergy design instead of simple combination of different origami features. In details, three buckling-regulated mechanisms are incorporated into the origami materials using synergy design, i.e., controlling global bulking via deployable folding, controlling local buckling through cell structure arrangement, and reproducing high energy-absorbing deformation mode using undeployable features. According to the synergic effect of multiple origami features, the buckling-regulated origami material improves both the resistance of deployable origami and instability of undeployable deformation. To validate this, the corresponding origami materials are manufactured by 3D printing technology, and experimentally tested. The manufactured origami materials show anticipated properties under quasi-static compression, i.e., high resistance and protracted steady plateau. Furthermore, due to the structural characteristics of origami and the tailorability of mechanical properties, it may inspire new innovations in designing other multi-functional metamaterials.