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Abstract

Magneto-Rheological (MR) fluid based devices work on the principle of changing the rheological properties of MR fluid (MRF) using magnetic field excitation generated from an electromagnet. The electromagnet is usually created with the aid of copper coils wound on a low magnetic permeable spindle structure referred to as bobbin. In this paper, an attempt has been made to investigate the different bobbin configurations and its effect on the torque transmissibility of a MR clutch (MRC). A hybrid corrugated-plane type transmission surface MRC is chosen for the study, due to the advantage of enhanced transmission capability due to the simultaneous existence of plane and corrugated extensions on the disc surface. This enhanced transmission capability, resulting from the hybrid corrugated plane type transmission surface facilitates mama,. BB vg BBC gg of the influence of bobbin configuration on the torque transmission capability in an MRC. A comparative analysis using COMSOL Multiphysics software is carried out between five different innovative bobbin configurations such as rectangular, semi-circular, conical, I-sectioned and H-sectioned. This study aims to simulate and reason the variations in the magnetic field line characteristics upon variations in bobbin topography. The results obtained testify for the need of a bobbin design taking into account the transmission surface geometry. For the specific design analyzed, it was found that the H-sectioned bobbin provided the maximum torque transmission capability when compared with other topographies, whereas the conical shaped bobbin topography proved to be least facilitating for torque transmission.