Mechanical evaluation of 3D printed biomimetic non-Euclidean saddle geometries mimicking the mantis shrimp
Autor: | Sai Kaushik Yeturu, Elizabeth A. Delesky, Wil V. Srubar, Tara E. Mensch, Garret M. Miyake, Robert W Learsch, Kyle E. O. Foster |
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Rok vydání: | 2021 |
Předmět: |
Physics
Paraboloid biology Biophysics Elastic energy Mantodea Geometry Extremities Spring (mathematics) biology.organism_classification Curvature Biochemistry Mantis shrimp Biomimetics Crustacea Odontodactylus scyllarus Printing Three-Dimensional Molecular Medicine Animals Mantis Engineering (miscellaneous) Saddle Biotechnology |
Zdroj: | Bioinspirationbiomimetics. 16(5) |
ISSN: | 1748-3190 |
Popis: | Engineering design has drawn inspiration from naturally occurring structures to advance manufacturing processes and products, termed biomimetics. For example, the mantis shrimp, order Stomatopoda, is capable of producing one of the fastest appendage strikes in the world with marginal musculoskeletal displacement. The extreme speed of the mantis shrimp's raptorial appendage is due to the non-Euclidean hyperbolic paraboloid (i.e., saddle) shape within the dorsal region of the merus, which allows substantial energy storage through compression in the sagittal plane. Here, investigation of 3D printed synthetic geometries inspired by the mantis shrimp saddle geometry has revealed insights for elastic energy storage (i.e., spring-like) applications. Saddles composed of either a stiff or a flexible resin were investigated for spring response to explore the geometric effects. By modulating the saddle geometry and testing the spring response, it was found that, for the stiff resin, the spring constant was improved as the curvature of the contact and orthogonal faces were maximized and minimized, respectively. For the flexible resin, it was found that the spring constant increased by less than 250 N/mm as the saddle geometry changed, substantiating that the flexible component of mantis saddles does not contribute to energy storage capabilities. The geometries of two saddles from the mantis shrimp species Odontodactylus scyllarus were estimated and exhibited similar trends to manufactured saddles, suggesting that modulating saddle geometry can be used for tailored energy storage moduli in spatially constrained engineering applications. |
Databáze: | OpenAIRE |
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