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基于含纤维复合剪切增稠流体的粘弹性鳍的仿生水生推进机制

Bio-Inspired Aquatic Propulsion Mechanism Using Viscoelastic Fin Containing Fiber Composite Shear Thickening Fluid.

作者信息

Kobayashi Shunichi, Sugiyama Kousuke

机构信息

Institute for Fiber Engineering, Shinshu University, Ueda 386-8567, Japan.

Graduate School of Science and Technology, Shinshu University, Ueda 386-8567, Japan.

出版信息

Biomimetics (Basel). 2023 Sep 1;8(5):405. doi: 10.3390/biomimetics8050405.

Abstract

Many propulsion mechanisms utilizing elastic fins inspired by the caudal fins of aquatic animals have been developed. However, these elastic fins possess a characteristic whereby the rigidity required to achieve propulsion force and speed increases as the oscillation velocity increases. Therefore, by adding an actuator including a variable stiffness mechanism to the fin it is possible to maintain the optimal stiffness at all times. However, if the aforementioned characteristics allowing the fin itself to change stiffness are present, the need for a variable stiffness mechanism is eliminated, leading to possibilities such as the simplification of the mechanism, improvements in fault tolerance, and enhancements in fin efficiency. The authors developed a fiber composite viscoelastic fin by adding fibers to a shear thickening fluid (STF) and examined the speed dependency of the fin's rigidity. In this work, we examined the structure and speed dependency of the fin's rigidity, as well as the propulsion characteristics in still water and in uniform flow. As a result, the fiber-containing fin containing the STF oobleck (an aqueous suspension of potato starch) demonstrated higher propulsion in still water and higher self-propelled equivalent speed in uniform water flow than elastic fins.

摘要

许多受水生动物尾鳍启发的利用弹性鳍的推进机制已经被开发出来。然而,这些弹性鳍具有这样一种特性,即随着振荡速度的增加,实现推进力和速度所需的刚度也会增加。因此,通过在鳍上添加一个包括可变刚度机制的致动器,就有可能始终保持最佳刚度。然而,如果鳍本身具有允许改变刚度的上述特性,那么对可变刚度机制的需求就被消除了,从而带来诸如简化机构、提高容错能力和提高鳍效率等可能性。作者通过向剪切增稠流体(STF)中添加纤维,开发了一种纤维复合粘弹性鳍,并研究了鳍刚度的速度依赖性。在这项工作中,我们研究了鳍刚度的结构和速度依赖性,以及在静止水中和均匀流中的推进特性。结果表明,含有STF磁流体(土豆淀粉的水悬浮液)的含纤维鳍在静止水中表现出更高的推进力,在均匀水流中表现出更高的自推进等效速度,优于弹性鳍。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5650/10526487/45802213e5e4/biomimetics-08-00405-g001.jpg

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