Title :
Primary Analysis of Frequency Characteristics in a Miniature Self-Propelling Device Using Fe-Ga Alloys (Galfenol)
Author :
Zhang, Zu Guang ; Ueno, Toshiyuki ; Yamazaki, Tamon ; Higuchi, Toshiro
Author_Institution :
Dept. of Mech. Eng., Tokyo Univ. of Sci., Chiba, Japan
fDate :
6/1/2010 12:00:00 AM
Abstract :
The present paper describes the theoretical analyses, design and experimental verification of a magnetostrictive actuating device, the locomotion of which is inspired by the motion of the smooth impact drive mechanism reported previously by a number of researches of our group. The proposed device is different from the reported device driven by a piezoelectric actuator. The proposed device is actuated by a micro magnetostrictive actuator constructed using an iron-gallium alloy. The proposed magnetostrictive actuating device is an interesting linear-moving mechanism and takes advantage of impact forces coupled with friction forces to achieve a long stroke with fine position resolution. The results of experiments indicate that the maximum speed of the prototype is approximately 1.0 mm/s at a current of 300 mA with a frequency of 4 kHz.
Keywords :
electromagnetic actuators; gallium alloys; iron alloys; magnetostrictive devices; microactuators; FeGa; Galfenol; current 300 mA; frequency 4 kHz; friction forces; impact forces; iron-gallium alloy; linear-moving mechanism; magnetostrictive actuating device; micromagnetostrictive actuator; miniature self-propelling device; Couplings; Frequency; Friction; Iron alloys; Magnetic analysis; Magnetic devices; Magnetostriction; Magnetostrictive devices; Motion analysis; Piezoelectric actuators; Iron-gallium alloy (Galfenol); magnetostrictive actuation; magnetostrictive vibrator; smooth impact drive mechanism;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2010.2044637
