Electrorheological Rotating Disk Clutch Mechanism Under AC Electric Field: Part I - Torque and Current Density-Reference-Cited by-同舟云学术

Electrorheological Rotating Disk Clutch Mechanism Under AC Electric Field: Part I - Torque and Current Density

Published:2002-07 Issue:7-8 Volume:13 Page:491-496
ISSN:1045-389X
Container-title:Journal of Intelligent Material Systems and Structures
language:en
Short-container-title:Journal of Intelligent Material Systems and Structures

Author:

Shimada Kunio¹,Nishida Hitoshi²

Affiliation:

1. Faculty of System Science and Technology, Akita Prefectural University, 84-4Aza-Ebinokuchi, Tsuchiya, Honjyo, 015-0055, Japan,

2. Hokuriku Polytechnic College, 1289-1, Kawaberi, Uozu, 937-0856, Japan

Abstract

Torque and current density on a rotating disk immersed in suspension-type electrorheological fluid (ERF) under AC electric field were measured. They have steady and varying amplitude components which depend on the angular velocity of the disk, and the frequency and intensity of the electric field. The results were demonstrated by means of a particle aggregation model. The constant torque and current density under DC electric field were compared to those under AC field. The magnitudes of the differences strongly depend on the angular velocity of the disk and the frequency of the electric field. When an AC electric field is used, a smaller frequency should be applied for the sake of greater efficiency.

Publisher

SAGE Publications

Subject

Mechanical Engineering,General Materials Science

Link

http://journals.sagepub.com/doi/pdf/10.1106/104538902029763

Reference6 articles.

1. A device to regulate rotational speed using a rotating regulator with electrorheological fluid

2. A Study of Steady Torque Characteristics of a Rotating Disk in ERF. 1st Report, Comparison of Flow Curve between Rotating Concentric Cylinder and Rotating Disk.

3. Effects of Experimental Factors on Steady Characteristics on Devices of Rotating Disk Type Using ERF with Smectite Particles.

4. Studies on the steady-shear behavior of electrorheological suspensions

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