Swimmer with submerged SiO2/Al/LiNbO3 surface acoustic wave propulsion system

Deqing Kong; Ryo Tanimura; Fang Wang; Kailiang Zhang; Minoru Kuribayashi Kurosawa; Manabu Aoyagi

Biomimetic Intelligence and Robotics (Jun 2024)

Swimmer with submerged SiO2/Al/LiNbO3 surface acoustic wave propulsion system

Deqing Kong,
Ryo Tanimura,
Fang Wang,
Kailiang Zhang,
Minoru Kuribayashi Kurosawa,
Manabu Aoyagi

Affiliations

Deqing Kong: Department of Engineering, Muroran Institute of Technology, Muroran 050-8585, Japan; Corresponding author.
Ryo Tanimura: Department of Engineering, Muroran Institute of Technology, Muroran 050-8585, Japan
Fang Wang: Tianjin Key Laboratory of Film Electronic and Communication Devices, School of Integrated Circuit Science and Engineering, Tianjin University of Technology, Tianjin 300384, China
Kailiang Zhang: Tianjin Key Laboratory of Film Electronic and Communication Devices, School of Integrated Circuit Science and Engineering, Tianjin University of Technology, Tianjin 300384, China
Minoru Kuribayashi Kurosawa: School of Engineering, Tokyo Institute of Technology, Yokohama 226-8501, Japan
Manabu Aoyagi: Department of Engineering, Muroran Institute of Technology, Muroran 050-8585, Japan

Journal volume & issue: Vol. 4, no. 2
p. 100159

Abstract

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Acoustic propulsion system presents a novel underwater propulsion approach in small scale swimmer. This study introduces a submerged surface acoustic wave (SAW) propulsion system based on the SiO2/Al/LiNbO 3 structure. At 19.25 MHz, the SAW propulsion system is proposed and investigated by the propulsion force calculation, PIV measurements and propulsion measurements. 3.3 mN propulsion force is measured at 27.6 Vpp. To evaluate the miniature swimmer, the SAW propulsion systems with multiple frequencies are studied. At 2.2 W, the submerged SAW propulsion system at 38.45 MHz demonstrates 0.83 mN/mm2propulsion characteristics. At 96.13 MHz and 24 Vpp, the movements of miniature swimmer with a fully submerged SAW propulsion system are recorded and analyzed to a maximum of 177 mm/s. Because of miniaturization, high power density, and simple structure, the SAW propulsion system can be expected for some microrobot applications, such as underwater drone, pipeline robot and intravascular robot.

Published in Biomimetic Intelligence and Robotics

ISSN: 2097-0242 (Print); 2667-3797 (Online)
Publisher: Elsevier
Country of publisher: Netherlands
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering; Science: Mathematics: Instruments and machines: Electronic computers. Computer science
Website: https://www.journals.elsevier.com/biomimetic-intelligence-and-robotics

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