TY - JOUR
T1 - New Hybrid Stator Design for High-Speed PMSMS Based on Selective Laser Melting of 3-D Printing
AU - Huang, Po Wei
AU - Jiang, I. Hua
AU - Tsai, Mi Ching
AU - Chen, Guan Ming
N1 - Funding Information:
ACKNOWLEDGMENT The authors would like to thank ANSYS Corporation and China Steel for their supports. This work was supported by the Ministry of Science and Technology, Taiwan, under Grant MOST 107-2622-8-006-015 and under Grant MOST 107-2218-E-006-019.
Publisher Copyright:
© 1965-2012 IEEE.
PY - 2019/7
Y1 - 2019/7
N2 - In this paper, a new hybrid stator fabrication with 2-D steel sheets lamination and 3-D end cap structure for high-speed motor application is provided. With the additional overhead end cap design, the new motor not only features lower iron losses in high frequency and reduces copper losses like traditional soft magnetic composite (SMC) motor but also achieves higher permeability and lower production cost at the same time. In this paper, the motor characteristics, i.e., back electromotive force and efficiency between the traditional lamination, SMC, and the new hybrid design are investigated by 3-D FEA simulation. Moreover, a prototype is fabricated by 3-D printing for the verification of the analytical and simulation results.
AB - In this paper, a new hybrid stator fabrication with 2-D steel sheets lamination and 3-D end cap structure for high-speed motor application is provided. With the additional overhead end cap design, the new motor not only features lower iron losses in high frequency and reduces copper losses like traditional soft magnetic composite (SMC) motor but also achieves higher permeability and lower production cost at the same time. In this paper, the motor characteristics, i.e., back electromotive force and efficiency between the traditional lamination, SMC, and the new hybrid design are investigated by 3-D FEA simulation. Moreover, a prototype is fabricated by 3-D printing for the verification of the analytical and simulation results.
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U2 - 10.1109/TMAG.2019.2901502
DO - 10.1109/TMAG.2019.2901502
M3 - Article
AN - SCOPUS:85067820165
SN - 0018-9464
VL - 55
JO - IEEE Transactions on Magnetics
JF - IEEE Transactions on Magnetics
IS - 7
M1 - 8671524
ER -