Study on stability improvement by applying electromagnetic force to edge of non-contact-gripped thin steel plate
Author:
Affiliation:
1. Department of Electrical and Electronic Engineering, Tokyo University of Science, Suwa
2. Department of Mechanical Engineering, Tokai University
3. Department of Prime Mover Engineering, Tokai University
Publisher
Japan Society of Mechanical Engineers
Subject
General Medicine
Link
https://www.jstage.jst.go.jp/article/mej/3/6/3_15-00376/_pdf
Reference9 articles.
1. Kurihara, T., Narita, T., Hasegawa, S. and Oshinoya, Y., Effect of a magnetic field from the horizontal direction on a magnetically levitated steel plate (Fundamental considerations on the shape analysis of ultrathin steel plate), Proceedings of the International Power Electronics Conference (2014), pp.299-303, DOI: 10.1109/IPEC.2014.6869597.
2. Marumori, H., Yonezawa, H., Narita, T., Kato, H. and Oshinoya, Y., Consideration on bent magnetic levitation apparatus for thin steel plate, Transactions of the JSME, Vol.81, No.823 (2015), p.14-00471 (in Japanese), DOI: http://doi.org/10.1299/transjsme.14-00471.
3. Nakagawa, T., Hama, M. and Furukawa, T., Study of magnetic levitation technique applied to steel plate production line, Transactions of the IEEE on Magnetics, Vol.36, No.5 (2000), pp.3686-3689, DOI: 10.1109/20.908941.
4. Namerikawa, T., Mizutani, D. and Kuroki, S., Robust H∞ DIA control of levitated steel plates, Transactions of the IEEJ, Vol.126, No.10 (2006), pp.1319-1324, DOI: http://doi.org/10.1541/ieejias.126.1319.
5. Narita, T., Hasegawa, S. and Oshinoya, Y., Hybrid electromagnetic levitation system for thin steel plates using permanent magnets, Journal of the Magnetics Society of Japan, Vol.37, No.2 (2013), pp.29-34 (in Japanese), DOI: http://doi.org/10.3379/msjmag.1301R003.
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