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Abstract

Incorporation of electrorheological (ER) fluid properties within a general, but comprehensive design procedure is initiated by the adoption of a Bingham power law constitutive law into a computational fluid dynamic (CFD) analysis. CFD results are presented for the analysis of the complex flow of an electrorheological fluid in a radial shear clutch device under the influence of electric field. In such a device the fluid is sheared between a driven (rotating) and a parallel stationary shear plate. The ER fluid is modeled using a technique which can be employed for any fluid/field characterization. It is shown that the initial flow rate induced cooling cannot be maintained when a substantial field is applied and the clutch plates continue to slip.

Keywords

electrorheological fluid computational fluid dynamics clutch optimization.

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References

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CFD Study of the Flow in a Radial Electrorheological Fluid Clutch

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