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Published in: Physics of Metals and Metallography 5/2023

01-05-2023 | ELECTRICAL AND MAGNETIC PROPERTIES

The Effect of Magnetization Reversal Frequency on the Dynamic Magnetic Hysteresis of a Plate Made of Electrical Steel

Authors: N. E. Mironyuk, M. V. Samatov

Published in: Physics of Metals and Metallography | Issue 5/2023

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Abstract

Electrodynamic, quasi-static magnetic hysteresis loops and the form of the domain texture of a single-crystal plate have been experimentally obtained. Using mathematical modeling, the change in the dynamic magnetic hysteresis (the magnetic loss energy per unit volume per magnetization reversal cycle) depending on the frequency of the magnetic field is shown. This dependence is due to the inertia of the magnetization of the sample. With a change in frequency, the dynamic magnetic hysteresis can differ significantly from the hysteresis in the case of quasi-static magnetization reversal.

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Literature
1.
go back to reference S. V. Zhakov and B. N. Filippov, “On the theory of electromagnetic losses in single-crystal ferromagnetic sheets in the presence of domain structures in them,” Fiz. Met. Metalloved. 38, 471–478 (1974). S. V. Zhakov and B. N. Filippov, “On the theory of electromagnetic losses in single-crystal ferromagnetic sheets in the presence of domain structures in them,” Fiz. Met. Metalloved. 38, 471–478 (1974).
2.
go back to reference Yu. N. Dragoshanskii, V. A. Zaikova, and V. F. Tiunov, “Effect of the 180° bending of domain boundaries on the electromagnetic losses in monocrystals of silicon iron,” Fiz. Met. Metalloved. 39, 519–523 (1975). Yu. N. Dragoshanskii, V. A. Zaikova, and V. F. Tiunov, “Effect of the 180° bending of domain boundaries on the electromagnetic losses in monocrystals of silicon iron,” Fiz. Met. Metalloved. 39, 519–523 (1975).
3.
go back to reference S. V. Zhakov, V. F. Tiunov, B. N. Filippov, V. A. Zaikova, and Yu. N. Dragoshanskii, “Effect of 180° bending of domain boundaries on the power of electromagnetic losses in the Fe-3% Si alloy,” 44, 1185–1190 (1977). S. V. Zhakov, V. F. Tiunov, B. N. Filippov, V. A. Zaikova, and Yu. N. Dragoshanskii, “Effect of 180° bending of domain boundaries on the power of electromagnetic losses in the Fe-3% Si alloy,” 44, 1185–1190 (1977).
4.
go back to reference V. A. Zaikova, I. E. Startseva, and B. N. Filippov, Domain Structure and Magnetic Properties of Electric Steels (Nauka, Moscow, 1992). V. A. Zaikova, I. E. Startseva, and B. N. Filippov, Domain Structure and Magnetic Properties of Electric Steels (Nauka, Moscow, 1992).
5.
go back to reference R. M. Borozth, Ferromagnetism (D. Van Nostrand, Toronto, 1956). R. M. Borozth, Ferromagnetism (D. Van Nostrand, Toronto, 1956).
6.
go back to reference S. V. Vonsovskii, Magnetism (Nauka, Moscow, 1971). S. V. Vonsovskii, Magnetism (Nauka, Moscow, 1971).
7.
go back to reference A. A. Siventsev, A. I. Kadochnikov, and V. V. Leonov, “Dynamic remagnetization of magnetically soft materials and their domain structure,” Fiz. Met. Metalloved. 38, 529–535 (1974). A. A. Siventsev, A. I. Kadochnikov, and V. V. Leonov, “Dynamic remagnetization of magnetically soft materials and their domain structure,” Fiz. Met. Metalloved. 38, 529–535 (1974).
8.
go back to reference F. N. Dunaev, Magnetic Texture and Remagnetization Processes in Ferromagnetics (Izd-vo Ural. Gos. Univ., Sverdlovsk, 1978). F. N. Dunaev, Magnetic Texture and Remagnetization Processes in Ferromagnetics (Izd-vo Ural. Gos. Univ., Sverdlovsk, 1978).
9.
go back to reference A. I. Kadochnikov, Dynamic Loops of Magnetic Hysteresis (Izd-vo Ural. Otd. Ross. Akad. Nauk, Yekaterinburg, 2007). A. I. Kadochnikov, Dynamic Loops of Magnetic Hysteresis (Izd-vo Ural. Otd. Ross. Akad. Nauk, Yekaterinburg, 2007).
10.
go back to reference V. I. Chechernikov, Magnetic Measurements (Izd-vo Mosk. Univ., Moscow, 1969). V. I. Chechernikov, Magnetic Measurements (Izd-vo Mosk. Univ., Moscow, 1969).
11.
go back to reference N. A. Skulkina, “Distribution of magnetization and magnetic properties of crystalline, amorphous, and nanocrystalline magnetic materials,” Candidate’s Dissertation in Mathematics and Physics (Yekaterinburg, 2008). N. A. Skulkina, “Distribution of magnetization and magnetic properties of crystalline, amorphous, and nanocrystalline magnetic materials,” Candidate’s Dissertation in Mathematics and Physics (Yekaterinburg, 2008).
12.
go back to reference S. V. Vonsovskii and Ya. S. Shur, Ferromagnetism (OGIZ, Moscow, 1948). S. V. Vonsovskii and Ya. S. Shur, Ferromagnetism (OGIZ, Moscow, 1948).
13.
go back to reference A. I. Kadochnikov and N. E. Mironyuk, “Area of applicability of Rayleigh formulas and Kondorskii transform in describing the hysteresis loops of electric steels,” Elektrotekhnika, No. 9, 14–16 (1982). A. I. Kadochnikov and N. E. Mironyuk, “Area of applicability of Rayleigh formulas and Kondorskii transform in describing the hysteresis loops of electric steels,” Elektrotekhnika, No. 9, 14–16 (1982).
14.
go back to reference Ya. S. Shur, E. B. Khan, and V. A. Zaikova, “Domain structure of monocrystals of silicon iron in variable magnetic fields,” Fiz. Met. Metalloved. 31, 286–293 (1971). Ya. S. Shur, E. B. Khan, and V. A. Zaikova, “Domain structure of monocrystals of silicon iron in variable magnetic fields,” Fiz. Met. Metalloved. 31, 286–293 (1971).
Metadata
Title
The Effect of Magnetization Reversal Frequency on the Dynamic Magnetic Hysteresis of a Plate Made of Electrical Steel
Authors
N. E. Mironyuk
M. V. Samatov
Publication date
01-05-2023
Publisher
Pleiades Publishing
Published in
Physics of Metals and Metallography / Issue 5/2023
Print ISSN: 0031-918X
Electronic ISSN: 1555-6190
DOI
https://doi.org/10.1134/S0031918X23600550

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