Control of buckling behavior in origami-based auxetic structures by functionally graded thickness

Author:

Tomita S.1ORCID,Shimanuki K.1ORCID,Umemoto K.1ORCID

Affiliation:

1. Toyota Central R&D Labs., Inc. , 1-4-14 Koraku, Bunkyo-ku, Tokyo 112-0004, Japan

Abstract

Negative Poisson’s ratio in auxetic structures plays a crucial role in energy absorption and impact mitigation. Origami-based lattices within the realm of auxetic structures offer the advantage of facile fabrication and design. Nevertheless, the utilization of periodic lattices in origami-based auxetic structures constrains the available design space for achieving diverse mechanical properties. Addressing this limitation, our study introduces origami-based auxetic structures with functionally graded thickness, utilizing origami-based lattices known as Tachi–Miura polyhedra. We investigated the impact of functionally graded thickness on buckling behavior and force responses through dynamic loading experiments employing 3D-printed test pieces. The experimental results indicate that functionally graded thickness induces partial auxetic deformation in lattices, and the resulting nonsymmetric deformation prevents global buckling, thereby averting bounded forces observed in structures with uniform thickness. These findings extend the applicability of auxetic structures, spanning from energy absorption to the design of cushioning structures.

Publisher

AIP Publishing

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