Affiliation:
1. Wuhan Polytechnic University
Abstract
The internal structure of magnetorheological fluid could change under external magnetic field, as well as its dielectric constant and magnetic conductance. A theoretical model of electromagnetic wave propagation in MRF was established and the basic formula of transmissivity was deduced. Theoretical simulation shows that the electromagnetic wave transmissivity decreases with the increasing of dielectric constant of magnetorheological fluid, and increases with the magnetic permeability. Theoretical analysis indicates that the change of its structure and dielectric magnetic properties of MR fluids is the main cause for the fact that the transmittance could be adjusted under external magnetic field.
Publisher
Trans Tech Publications, Ltd.
Reference4 articles.
1. Kordonsky W, Ashour O, Rogers C.A. Magnetorheological Fuids: Materials. Characterization and Devices. Journal of Intelligent Material Systems And Stmctttres, 1996, (7) , p.123.
2. ZhaoXiaopeng, FanJijun, Gao Xiumin, et a1. Er microwave transmission control behavior. Acta Physica Sinica, 2001, 50 (7) , p.1302.
3. Jijun Fan, Xiaoping Zhao, Xiuming Gao, et a1. Electric Field Regulating Behavior of Microwave Propagation in ER Fluids. J Physics D: Applied Physics, 2002, 35 (1) , p.88.
4. FanJijun, ZhaoXiaopeng, HuangMin, et a1. BaTiO electrorheological fluid microwave attenuation characteristics can control. Progress in Natural Science, 2002, (10) , p.753.
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1 articles.
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