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Enhancing Thrust in Underwater Bio-Inspired Propulsion Fin Using Shear-Stiffening Gel.


ABSTRACT: In this study, we investigated the thrust enhancement in a bio-inspired underwater propulsion fin using a shear-stiffening gel. Shear-stiffening gels exhibit velocity-dependent stiffness, i.e., they become stiffer during high-speed deformation and softer during low-speed motion, providing adaptive mechanical properties without requiring complex mechanisms. A "compound joint" incorporating a dilatant compound, a material of shear-stiffening gel, was developed and experimentally evaluated against a "rigid joint" and a flexible "urethane joint". A speed-ratio control strategy was employed to assign faster and slower oscillations during positive and negative thrust intervals, respectively. The results demonstrated that the compound joint achieved a balance between high thrust and stable performance. Its adaptive stiffness effectively reduced deformation during high-speed oscillations, enhanced thrust while maintaining flexibility during low-speed intervals, and minimized thrust fluctuations. Compared with the rigid and urethane joints, the compound joint exhibited a superior balance between a high average thrust and low thrust variation.

SUBMITTER: Kobayashi S 

PROVIDER: S-EPMC12025331 | biostudies-literature | 2025 Mar

REPOSITORIES: biostudies-literature

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Enhancing Thrust in Underwater Bio-Inspired Propulsion Fin Using Shear-Stiffening Gel.

Kobayashi Shunichi S   Jonishi Yusuke Y  

Biomimetics (Basel, Switzerland) 20250325 4


In this study, we investigated the thrust enhancement in a bio-inspired underwater propulsion fin using a shear-stiffening gel. Shear-stiffening gels exhibit velocity-dependent stiffness, i.e., they become stiffer during high-speed deformation and softer during low-speed motion, providing adaptive mechanical properties without requiring complex mechanisms. A "compound joint" incorporating a dilatant compound, a material of shear-stiffening gel, was developed and experimentally evaluated against  ...[more]

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