Design, fabrication, and realisation of a robotic fish actuated by dielectric elastomer with a passive fin

IF 1.5 Q3 AUTOMATION & CONTROL SYSTEMS

IET Cybersystems and Robotics Pub Date : 2023-05-08 DOI:10.1049/csy2.12090

Zekai Wang, Junqiang Lou, Xingdong Xiao, Guoping Li, Yimin Deng

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Abstract

Robotic fish actuated by smart materials has attracted extensive attention and has been widely used in many applications. In this study, a robotic fish actuated by dielectric elastomer (DE) films is proposed. The tensile behaviours of DE film VHB4905 are studied, and the Ogden constitutive equation is employed to describe the stress-strain behaviour of the DE film. The fabrication processes of the robotic fish, including pre-stretching treatment of the DE films, electrode coating with carbon paste, and waterproof treatment, are illustrated in detail. The dynamic response of the fabricated DE actuators under different excitation voltages is tested based on the experimental setup. Experimental results show that the first-order natural frequencies of the obtained DE actuator in air is 4.05 Hz. Finally, the swimming performances of the proposed robotic fish at different driving levels are demonstrated, and it achieves an average swimming speed of 20.38 mm/s, with a driving voltage of 5kV at 0.8 Hz.

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带无源鳍的介电弹性体驱动的机器鱼的设计、制造和实现

由智能材料驱动的机器鱼引起了广泛的关注，并在许多领域得到了广泛的应用。本研究提出了一种由介电弹性体(DE)薄膜驱动的机器鱼。研究了DE薄膜VHB4905的拉伸性能，采用Ogden本构方程描述了DE薄膜的应力-应变行为。详细说明了机器鱼的制造工艺，包括DE薄膜的预拉伸处理、碳糊电极涂层和防水处理。在实验装置的基础上，测试了不同激励电压下所制DE执行器的动态响应。实验结果表明，所得到的空气中DE驱动器的一阶固有频率为4.05 Hz。最后，对机器鱼在不同驱动水平下的游动性能进行了验证，在驱动电压为5kV，频率为0.8 Hz的情况下，机器鱼的平均游动速度达到20.38 mm/s。

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来源期刊

IET Cybersystems and Robotics Computer Science-Information Systems

CiteScore

3.70

自引率

0.00%

发文量

审稿时长

34 weeks