Energy-efficient composite materials for electrical engineering
Keywords:
composite, soft magnetic, effect, cores, hysteresis curve, field uniformity, electromagnet, ponderomotive force
Abstract
The article discusses methods of using soft magnetic composite materials for elements of electrical equipment. High densities usually improve magnetic properties, both to reduce hysteresis losses and to obtain high magnetic induction. In addition, in order to further reduce hysteresis losses, heat treatment of the pressed part is required to relieve stress. This effect is achieved when soft magnetic composite materials are used for magnetic circuits of electric motors.
References
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https://doi.org/10.1051/e3sconf/202340103038 (3, Scopus, IF 1,0)
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[15] U. T. Berdiyev, U. N. Berdiyorov, U. B. Sulaymonov, and L. U. Khalikova, "Ways to improve the energy performance of asynchronous electric motors of rolling stock", AIP Conference Proceedings 2612, 050017 (2023) https://doi.org/10.1063/5.0117784
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[17] Chih-Wen, C. Magnetism and Metallurgy of Soft Magnetic Materials / C. Chih-Wen // Ed. Courier Corporation, 2013. – 592 p.
[2] Говор, Г.А. Композиционные магнитно-мягкие материалы на основе порошков железа и перспективы их применения в технике / Г.А. Говор, В.В. Михневич // Неорганические материалы. – 2007. – Т. 43, №7. – С. 805–807. 7.
[3] U.T.Berdiev, A.K. Vecher, F.F.Khasanov, Investigation of the frequency characteristics of composite iron powders with insulating oxide coatings. «Construction Mechanics, Hydraulics and Water Resources Engineering» (CONMECHYDRO – 2021), Узбекистан, Ташкент, 1 – 3 апреля.
[4] Rahman, K.M.; Patel, N.R.; Ward, T.G.; Nagashima, J.M.; Caricchi, F.; Crescimbini, F. Application of direct-drive wheel motor for fuel cell electric and hybrid electric vehicle propulsion system. IEEE Trans. Ind. Appl. 2006, 42,1185-1192.
[5] Berdiyev U.T., Demedenko O.F., Ashurov M.А., Hasanov F.F., Sulaymonov O‘. B., Optimization of the method of oxide coating of metallic iron powder particles // E3S Web of Conferences 383, 04039 (2023) TT21C-2023. https://doi.org/10.1051/e3sconf/202338304039 (3, Scopus, IF 1,0)
[6] A U Gapparov, G A Govor, U T Berdiyev, F F Hasanov, and A M Kurbanov. Magnetic-soft materials based on iron for electromechanical engineering, IOP Conf. Series: Earth and Environmental Science 614 (2020) 012048.
[7] Skorman B, Zhou E, Jansson P 2010 Pat. 2389099 RF, IPC N0Sh/2 Soft magnetic composites, Bull. Number 13
[8] Chau, K.T.; Chan, C.C.; Liu, C. Overview of Permanent-Magnet Brushless Drives for Electric and Hybrid Electric Vehicles. IEEE Trans. Ind. Electron. 2008, 55, 2246-2257.
[9] Говор, Г.А. Особенности магнитных характеристик новых композиционных материалов на основе порошков железа / Г.А. Говор, А.К. Вечер, К.И. Янушкевич // Перспективные материалы и технологии / под ред. В.В. Клубовича. – Витебск: УО «ВГТУ», 2017. – Т. 2. – С. 278–299.
[10] Baratov, R., Pirmatov, N. Low - Speed generator with permanent magnets and additional windings in the rotor for small power wind plants and micro hydro power plants. IOP Conference Series: Materials Science and Engineeringthis link is disabled, 2020, 883(1), 012183
[11] Pirmatov, N., Toshev, S. Overvoltage in the free phase of the stator winding in case of asymmetric short circuit implicit pole synchronous generator biaxial excitation. E3S Web of Conferences, 2019, 139, 01030
[12] Berdiev U.T., Kolesnikov I.K., Tuychieva M.N., Khasanov F.F., Sulaymonov U.B., Methods of new technological developments of electric motors based on soft magnetic materials // E3S Web of Conferences 401, 03038 (2023) CONMECHYDRO-2023.
https://doi.org/10.1051/e3sconf/202340103038 (3, Scopus, IF 1,0)
[13] Структура и магнитные характеристики композитов основе капсулированных порошков железа ASC100.29 / Г.А. Говор, М. Пшыбыльски, А.К. Вечер, К.И. Янушкевич, Й. Зукровски, Т.М. Ткаченко // Вестник Фонда фундаментальных
исследований. – 2020. – №1. – С. 105–111.
[14] Миницкий, А.В. Основные тенденции развития порошковых магнитомягких материалов / А.В. Миницкий, Н.В. Миницкая, О.В. Власова // Процессы механической обработки в машиностроении. - 2010. Вып.9. С.3-16.
[15] U. T. Berdiyev, U. N. Berdiyorov, U. B. Sulaymonov, and L. U. Khalikova, "Ways to improve the energy performance of asynchronous electric motors of rolling stock", AIP Conference Proceedings 2612, 050017 (2023) https://doi.org/10.1063/5.0117784
[16] J.S. Fayzullayev. “Improvement of functional diagnostics of asynchronous motors” in AIP Conference Proceedings, 2612, 050034 (2023).
[17] Chih-Wen, C. Magnetism and Metallurgy of Soft Magnetic Materials / C. Chih-Wen // Ed. Courier Corporation, 2013. – 592 p.
Published
2025-02-10
How to Cite
Berdiev, U., Sulaymonov, U., & Amanlikova, N. (2025). Energy-efficient composite materials for electrical engineering. Journal of Transport, 1(1), 12-15. https://doi.org/10.56143/2181-2438-2024-1-12-15
Section
Power Supply, Electric Rolling Stock, Automation and Telemechanics
