An Axial Magnetic Gear Design with Changeable Ratios

In this study, we propose a non-contact 80 kW, 60,000 rpm coaxial magnetic gear (CMG) model for high speed and high power applications. Two models with the same power but different radial and axial sizes were optimized using response surface methodology. Both models employed a Halbach array to increase torque. Also, an edge fillet was applied to the radial magnetized permanent magnet to reduce torque ripple, and an axial gap was applied to the permanent magnet with a radial gap to reduce eddy current loss. The models were analyzed using 2-D and 3-D finite element analysis. The torque, torque ripple and eddy current loss were compared in both models according to the materials used, including Sm2Co17, NdFeBs (N42SH, N48SH). Also, the structural stability of the pole piece structure was investigated by forced vibration analysis. Critical speed results from rotordynamics analysis are also presented.

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Evaluation of Experimental Result and Utility of Flux Modulated Type Magnetic Gear

IEEJ Transactions on Industry Applications ◽

10.1541/ieejias.133.37 ◽

2013 ◽

Vol 133 (1) ◽

pp. 37-42 ◽

Cited By ~ 3

Author(s):

Yuji Enomoto ◽

Norihisa Iwasaki ◽

Masashi Kitamura ◽

Masahiro Mita ◽

Masahiro Masuzawa

Keyword(s):

Experimental Result ◽

Magnetic Gear

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Design of Coaxial Magnetic Gear Mechanisms Using Taguchi Method

202020 3rd IEEE International Conference on Knowledge Innovation and Invention (ICKII) ◽

10.1109/ickii50300.2020.9318945 ◽

2020 ◽

Author(s):

Yi-Chang Wu ◽

Mi-Ching Tsai ◽

Saian Nur Fajri ◽

Feng-Ming Ou

Keyword(s):

Taguchi Method ◽

Magnetic Gear

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Effect of design parameters on stresses occurring at the tooth root in a spur gear pressed on a shaft

Proceedings of the Institution of Mechanical Engineers Part E Journal of Process Mechanical Engineering ◽

10.1177/0954408921995292 ◽

2021 ◽

pp. 095440892199529

Author(s):

Fatih Güven

Keyword(s):

Internal Pressure ◽

Tangential Stress ◽

Spur Gear ◽

Design Parameters ◽

Interference Fit ◽

Gear Design ◽

Compact Design ◽

Fit Tolerance ◽

Moderate Stress ◽

Good Agreement

Gears are commonly used in transmission systems to adjust velocity and torque. An integral gear or an interference fit could be used in a gearbox. Integral gears are mostly preferred as driving gear for a compact design to reduce the weight of the system. Interference fit makes the replacement of damaged gear possible and re-use of the shaft compared to the integral shaft. However, internal pressure occurs between mating surfaces of the components mated. This internal pressure affects the stress distribution at the root and bottom land of the gear. In this case, gear parameters should be re-considered to assure gear life while reducing the size of the gear. In this study, interference fitted gear-shaft assembly was examined numerically. The effects of rim thickness, profile shifting, module and fit tolerance on bending stress occurring at the root of the gear were investigated to optimize gear design parameters. Finite element models were in good agreement with analytical solutions. Results showed that the rim thickness of the gear is the main parameter in terms of tangential stress occurring at the bottom land of the gear. Positive profile shifting reduces the tangential stress while the pitch diameter of the gear remains constant. Also, lower tolerance class could be selected to moderate stress for small rim thickness.

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Dynamic Simulation Method of a Magnetic Gear Using its Torque Map

2020 International Conference on Electrical Machines (ICEM) ◽

10.1109/icem49940.2020.9270924 ◽

2020 ◽

Author(s):

N. Niguchi ◽

K. Hirata ◽

K. Takahara ◽

H. Suzuki ◽

H. Daito ◽

...

Keyword(s):

Dynamic Simulation ◽

Simulation Method ◽

Magnetic Gear

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