Archive




Volume 3, Issue 3, May 2014, Page: 88-91
The Application Status and Prospects of Magneto-Rheological Fluid
Yuan Shu, Faculty of Automotive Engineering, Shanghai University of Engineering and Science, Shanghai, China
Ren Hongjuan, Faculty of Automotive Engineering, Shanghai University of Engineering and Science, Shanghai, China
Luo Yiping, Faculty of Automotive Engineering, Shanghai University of Engineering and Science, Shanghai, China
Xu Biao, Faculty of Automotive Engineering, Shanghai University of Engineering and Science, Shanghai, China
Received: Apr. 16, 2014;       Accepted: May 9, 2014;       Published: May 30, 2014
DOI: 10.11648/j.ijmsa.20140303.13      View  3007      Downloads  194
Abstract
As a kind of new intelligent material, magneto-rheological fluid (MRF) has been receiving more and more attentions and applications. In this paper, the components of magneto-rheological fluid and its performance characteristics are mainly introduced. Besides, the authors analyze the advantages of MRF in practical application and its present situation of application in engineering. Finally, the application of MRF in engine dynamometer is studied in detail which will widen the application of magneto-rheological fluid.
Keywords
MRF, Performance Characteristics, Application, Engine Dynamometer
To cite this article
Yuan Shu, Ren Hongjuan, Luo Yiping, Xu Biao, The Application Status and Prospects of Magneto-Rheological Fluid, International Journal of Materials Science and Applications. Vol. 3, No. 3, 2014, pp. 88-91. doi: 10.11648/j.ijmsa.20140303.13
Reference
[1]
Zuo Jun,Luo Xiaoyu,Cao Shupin. The magneto rheological fluid——A new intelligent fluid mat- erial[J].Machine tool & hydraulics,2000(1):30.
[2]
Yang Shi Qing, Zhang Wanli. Study on the rheological properties of magneto-rheological fluid[J]. Functional materials,1998,29(5):550-552.
[3]
J.Rabinow.The magnetic fluid clutch[J].AIEE Transaction, 1948, 67:1308-1315.
[4]
Yang Shiqing, Peng Bin, Jiang Hongchuan. Study on Preparation and rheological properties of composite intelligent magneto-rheological fluid system[J].Materials en-gineering, 2000(9): 21-24.
[5]
Carlson J D.Magnetorheological fluid actuators [A].In: Janocha H. Adaptronics and Smart Structures[C].Berlin: Springer-Verlag Berlin Heidelberg. 1999:180-195.
[6]
Foister R T.MR fluid devices[P].USA:US Patent:5667715, 1997.
[7]
Gopalswamy S, Linzell S M, Jones G L, et al. MR fluid clutch with minimized reluctance[P]. USA:US Patent:5896965, 1999.
[8]
Yalcintas M.Magneto-rheological Fluid Based Torque Transmission Clutches[A], Proceedings of the International Offshore and Engineering Conference[C], Brest, 1999, (4):563-569.
[9]
Zhen Jun,Zhang Zhaohui,Cao Xingjin. Flow analysis of magneto rheological fluid in the transmission device[J].Journal of Central South University,2008,39(1):1149-1154.
[10]
Zhen Jun, Zhang Zhaohui, Cao Xingjin. Numerical calculation of transient flow characteristics of magneto rheological fluid in the transmission device[J].Journal of Xi'an Jiao Tong University,2007,41(9):1053-1057.
[11]
Dyke. S.J, Spencer. Jr. B. F, M.K, et al. Experimental Verificantion of Semi-Active Structural Control Strategies Using Acceleration Feedback[A]. Proc. the 3rd Int Conf. on Motion and Vibr. Control[C], Chiba, Japan, 1996, (3):291-296.
[12]
Housner. G.W. Structural Control: Past, Present and Future[J].Journal of Engineering Mechanics, 1997, 123(9):897-971.
[13]
Lord Corporation Rheonetic Linear Damper, Rd-1001/Rd-1004, Product Information Sheet, Lord core.Pub.1997.
Browse journals by subject