期刊
JOURNAL OF TRIBOLOGY-TRANSACTIONS OF THE ASME
卷 143, 期 9, 页码 -出版社
ASME
DOI: 10.1115/1.4049255
关键词
clutches; fluid friction; rheology; surfaces; tribological systems; viscosity
This research paper investigates the torque transmission characteristics in a radial magnetorheological clutch disc with different groove profiles. Numerical simulations and experimental validations show consistent results in torque transmission with different groove profiles, and provide insights into the relationships among transmitted torque, disc radius, rotational speed, and magnetic field. Temperature distribution patterns and optimization of the radial groove profile in magnetorheological clutches have also been analyzed numerically.
In this research paper, an attempt has been made to investigate the torque transmission characteristics in a radial magnetorheological (MR) clutch disc with different groove profiles. To estimate the transmitted torque, a numerical procedure is initiated by the implementation of the Bingham constitutive model into a magnetic field analysis followed by computational fluid dynamic (CFD) analysis. CFD results are presented for the analysis of transmitted torque between a plane driving disc and three different driven discs, i.e., plane, radial groove, and circular groove disc, under the conditions of different working radii, magnetic fields, and rotational speeds. The MR fluid (MRF) domain is modeled using a technique which can be applied for any wall texture of driving and driven disc. To verify the numerical findings, an MR clutch with three different discs and a MR transmission test bed have been built, and the influence of groove profile on the transmission torque of MRFs has been investigated on the test bed. The results are presented to obtain the relationships among torque performance, disc radius, rotational speed, and magnetic field. Numerical results show good agreement of torque transmission for different groove profiles with experiments. Finally, temperature distribution patterns in different three MR clutches and an optimization of the radial groove profile have been analyzed numerically.
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