Journal
SENSORS AND ACTUATORS A-PHYSICAL
Volume 318, Issue -, Pages -Publisher
ELSEVIER SCIENCE SA
DOI: 10.1016/j.sna.2020.112386
Keywords
Micromotor; Liquid crystal; Backflow; Electric field
Funding
- Japan Society for the Promotion of Science KAKENHI [19H02055]
- Grants-in-Aid for Scientific Research [19H02055] Funding Source: KAKEN
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Liquid crystal micromotors based on the backflow effect were developed, with the rotation speed of the inner cylinder controlled by the frequency and voltage of the applied electric field. The maximum rotation speed achieved was 20rpm, and the motor performance can be adjusted by changing the voltage and gap size.
We developed liquid crystal micromotors that exploit the backflow effect. The motors are composed of concentric glass cylinders, the gap being filled with a liquid crystal. A planar orientation layer coats the outer surface of the inner cylinder, whereas a homeotropic layer coats the inner surface of the outer cylinder, resulting in a hybrid orientation profile between the cylinders. The effects of motor size, frequency, and voltage of the applied electric field on the speed of rotation of the inner cylinder were studied in experiments. For a fixed gap between cylinders, the speed of rotation increases with increasing applied voltage and with decreasing inner cylinder diameter. Furthermore, the speed depends on the frequency of the applied voltage. The maximum speed of rotation obtained was approximately 20rpm for a pair of cylinders of 70 mu m and 80 mu m in diameter and a pulsed voltage of 10 V, duty ratio of 5%, and frequency of 1000 Hz. Increasing the gap results in a decrease in the speed of rotation because the strength of the electric field decreases. The principle underlying liquid crystal motors is not the usual rotational motion but a translational motion along the circumference, analogous to a linear actuator. (C) 2020 Elsevier B.V. All rights reserved.
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