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Conference paper

Influence of End-Effects on Static Torque Performance of Misaligned Cylindrical Permanent Magnet Couplings

In Proceedings of Icem 2014 — 2014, pp. 516-522

By Högberg, Stig1,2; Hansen, Hilary3; Jensen, Bogi Bech4; Bendixen, Flemming Buus5

From

Department of Electrical Engineering, Technical University of Denmark1

Center for Electric Power and Energy, Centers, Technical University of Denmark2

Technical University of Denmark3

University of the Faroe Islands4

Sintex A/S5

Permanent magnet couplings are widely used in applications requiring torque to be transmitted through an air- gap. The aim of this study is to observe and explain the effect of radial and axial misalignment in a 12-pole, cylindrical permanent magnet coupling. Pull-out torque was measured for two coupling pairs which showed an increase of 3.1% and 3.8%, respectively, at maximum radial misalignment.

When modeled in finite element analysis software, the coupling produces 3.7% more static pull- out torque than the aligned case. For axial misalignment the pull-out torque at different misalignment distances was measured and simulated. An insignificant reduction in pull-out torque was observed for small misalignment, whereas it decreases linearly with misalignment distance when above 3–4 mm.

These results show that radial and axial misalignment do not adversely affect static torque performance, though the affect on non-static performance is not considered and may be detrimental.

Language: English
Publisher: IEEE
Year: 2014
Pages: 516-522
Proceedings: XXIst International Conference on Electrical Machines
ISBN: 1479943886 , 1479943894 , 9781479943883 and 9781479943890
Types: Conference paper
DOI: 10.1109/icelmach.2014.6960229
ORCIDs: Högberg, Stig
Keywords

Couplings Finite element analysis Permanent magnets Tolerance analysis Torque measurement

Other keywords

Air gaps Atmospheric modeling Magnetic separation Torque finite element analysis permanent magnets tolerance analysis torque measurement

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