Title :
Ultrasonic motors with polymer vibrator
Author :
Jiang Wu ; Mizuno, Yosuke ; Nakamura, Kentaro ; Kambara, Shigeki ; Okuyama, Naoto ; Shimizu, Kazuo
Author_Institution :
Precision & Intell. Lab., Tokyo Inst. of Technol., Yokohama, Japan
Abstract :
With the nature of low density and elastic modulus, polymers are promising materials for making light weight and large output ultrasonic motor (USM). However, it has been believed for a long time that polymer is too lossy to be applied in high amplitude vibrator. In order to explore the possibility of polymers for USM, we made a bimorph vibrator and a standing wave USM, respectively, and investigated their vibration and friction characteristics experimentally. It was found that polymer-based bimorphs had larger vibration velocity than the aluminum-based one. The polymer-based USMs using orthogonal bending vibrations exhibited higher angular velocity than the aluminum-based one under light preload, and the maximum torque of the polymer-based USMs were smaller than the aluminum-based one. Polyphenylenesulfide (PPS) was prospective material for USM under light preload because of the large high amplitude and lightweight.
Keywords :
acoustic wave velocity; angular velocity; bending; elastic moduli; friction; polymers; ultrasonic motors; vibrations; PPS; angular velocity; bimorph vibrator; elastic modulus; elastic weight; friction characteristics; light weight materials; orthogonal bending vibrations; output ultrasonic motor; polymer density; polymer vibrator amplitud; polymer-based USM; polymer-based bimorphs; polyphenylenesulfide; standing wave USM; vibration characteristics; vibration velocity; Acoustics; Angular velocity; Manganese; Polymers; Torque; Vibrations; polymer; ultrasonic motor; vibrator;
Conference_Titel :
Ultrasonics Symposium (IUS), 2014 IEEE International
Conference_Location :
Chicago, IL
DOI :
10.1109/ULTSYM.2014.0627
