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Abstract

The electrorheological (ER) fluid is a fluid that shows non-Newtonian fluid characteristics when the electrical field is applied. In this study, an experiment of an ER fluid viscous damper, in which an ER fluid is enclosed in the gap of a piston—cylinder system, is carried out to investigate the performances of the ER fluids and the effects of the electric field on the impulse response of the damper when an impulsive force is applied to it. To validate the experimental observations, a theoretical cylinder displacement formula of the damper is derived based on the Bingham approximation and the Stokes flow assumption of the test ER fluids in the damper. The present study shows that, when strength of the applied electric field and concentration of the ER fluids increase, the oscillation amplitudes of the cylinder displacement reduce. In other words, the ER damping effect is improved when the strength of the electric field increases.

Keywords

ER fluid viscous damper piston-cylinder system impulse response Rheology.

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References

Choi, S.B. , Choi, Y.T. , Chang, E.G. , Han, S.J. and Kim, C.S. 1998. ‘‘Control Characteristics of a Continuously Variable ER Damper,’’ Mechatronics, 8:143-161.

Doi, M. and Koyama, K. 1994. ‘Development and Application of the ER Fluid’ , p. 11, JSK, Tokyo.

Kita, Y. and Oshima, T. et al. 1993. ‘‘Fundamental Study about the Electric Viscosity Fluid,’’ JSME Journal, Series (B) (Japanese edition), 59:1816.

Miyamoto, T. and Genki, O. 1993. ‘‘Logical Experimental Examination about the Yield Stress of the ER Fluid,’’ JSME Journal, Series (B) (Japanese edition), 59:1822.

Mori, E.K. and Naito, H. 1995. ‘‘Oscillation Optimization of the Electric Viscosity Fluid Damper,’’ Japan Society of Mechanical Engineers, 64:3462.

Nakae, T. 2000. ‘Rheology Engineering and Applied Technology’ , p. 781, Japanese FUJITECNO System, Tokyo.

Rosensweig, R.E. 1995. ‘‘On Magnetorheology and Electrorheology as States of Unsymmetric Stress,’’ Journal of Rheology , 39:179-192.

Shimada, K. and Fujita, T. 1998. ‘‘The ER Effect and Non-Newtonian Characteristics of the Electric Viscosity Fluid,’’ Journal of Japan Society of Applied Electromagnetics and Mechanics, 6:131.

Tada, S. and Kabeya, N. 1997. ‘‘Fundamental Study about the Hydrodynamic Characteristic of the Electric Viscosity Fluid,’’ JSME Journal, Series (B) (Japanese edition), 63:2985.

10.

Takei, N. 2003. ‘‘ER Effect of the Uniform ER Fluid in the One Side of the Pattern Electrode,’’ JSME Journal , Series (C) (Japanese edition), 69:2011.

11.

Tao, R. (ed.) 1992. Electrorheological Fluids, World Scientific Publishing, Singapore.

12.

Yoshida, H. and Nagai, M. 1998. ‘‘Tracing and Control of Skyhook Balloon Model of Vehicle Support System with the ER Damper,’’ JSME Journal, Series (C) (Japanese edition), 64:3420.

Investigation of Impulse Response of an ER Fluid Viscous Damper

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