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Physics of Metals and Metallography

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01.09.2018 | ELECTRICAL AND MAGNETIC PROPERTIES

On the Influence of the Nonuniformity of Remagnetization of Fe–3% Si Anisotropic Electrical Steel on Magnetic Loss in Rotating Magnetic Fields

verfasst von: V. F. Tiunov

Erschienen in: Physics of Metals and Metallography | Ausgabe 9/2018

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Abstract—Different levels of magnetic loss for the rotational remagnetization are found on Fe–3% Si samples cut from different parts of anisotropic electrical strip steel (AES) with a 〈001〉 {110} edge texture. Based on the analysis of the magnetic-loss components and the frequency variation of the permeability of samples, it is shown that the difference is caused by different degrees of texturization. An effective reduction in magnetic loss due to rotational remagnetization of AES can be achieved by applying locally deformed zones onto areas with the maximum degree of texturization.

Vorheriger Artikel Microstructure and Magnetic Properties of the Gadolinium Nanolayer in a Thermo-Sensitive Spin Valve

Nächster Artikel The Effect of Inhibitors on the Structure and Magnetic Properties of Nanocrystalline Soft Magnetic Alloys

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D. M. Ionel, M. Popescu, M. I. McGilp, T. J. E. Miller, S. J. Dellinger, and R. J. Heideman, “Computation of core losses in electrical machines using improved models for laminated steel,” IEEE Trans. Ind. Appl. 43, 1554–1564 (2007).CrossRef

L. Ma, M. Sanada, S. Morimoto, and Y. Takeda, “Prediction of iron loss in rotating machines with rotational loss included,” IEEE Trans. Magn. 39, 2036–2041 (2003).CrossRef

J. Zhong, Y. G. Guo, J. G. Zhu, H. Y. Lu, and J. X. Jin, “Techniques and apparatus for measuring rotational core losses of soft magnetic materials,” J. Electron. Sci. Technol. 5, 218–225 (2007).

Y. Azzouz, A. Mouillet, and F. Z. Rebbani, “Measuring iron loss with a no-load torque rotating field device,” IEEE Trans. Magn. 43, 3999–4003 (2007).CrossRef

C. R. Boon and J. E. Thompson, “Rotational hysteresis loss in silicon–iron,” Proc. IEEE 111, 605–609 (1964).

K. Narita and T. Yamaguchi, “Rotational hysteresis loss in silicon–iron single crystal with (001) surfaces,” IEEE Trans. Magn. 10, 165–167 (1974).CrossRef

V. F. Tiunov and B. N. Filippov, “Dynamics of the domain structure and magnetic losses of Fe–3% Si single crystals in rotating magnetic fields,” Phys. Met. Metallogr. 102, 259–267 (2006).CrossRef

F. Fiorillo, C. Appino, A. M. Rietto, and J. Melkebeek, “Rotational loss separation in grain-oriented Fe–Si,” J. App. Phys. 87, 6511–6513 (2000).CrossRef

A. Cecchetti, G. Ferrari, F. Masoli, and G. P. Soardo, “Rotational power losses in 3% SiFe as a function of frequency,” IEEE Trans. Magn. 14, 356–358 (1978).CrossRef

10.

G. S. Korzunin, Magnetic Methods of Determination of Crystallographic Texture (Izd-vo UrO RAN, Ekaterinburg, 1995) [in Russian].

11.

V. F. Tiunov, “Measuring device for continuous monitoring of magnetic losses of coiled electrical steel,” Defektoskopiya, No. 4, 67–72 (2004).

12.

R. I. Yanus, “On the non-uniformity of the magnetic properties of electrical iron,” Fiz. Met. Metalloved. 1 (1), 84–91 (1955).

13.

V. F. Tiunov and V. A. Lukshina, “Effect of magnetic annealing on the magnetic losses of Fe–3 wt % Si single crystals in rotating magnetic fields,” Phys. Met. Metallogr. 107, 1–5 (2009).CrossRef

14.

V. F. Tiunov, “Specific features of the frequency variations in magnetic losses in Fe–3% Si {110} crystals in rotating magnetic fields,” Phys. Met. Metallogr. 119, 103–108 (2018).CrossRef

15.

V. F. Tiunov and G. S. Korzunin, “A device for measuring magnetic losses of ferromagnets in rotating magnetic fields,” Russ. J. Nondestr. Test. 51, 509–512 (2015).CrossRef

16.

V. A. Zaikova, I. E. Startseva, and B. N. Filippov, Domain Structure and Magnetic Properties of Electrical Steels (Nauka, Moscow, 1992) [in Russian].

17.

V. F. Tiunov, Yu. N. Starodubtsev, and V. A. Kataev, “Dinamic behavior of domain structure and magnetic losses of bicrystals of silicon iron,” Fiz. Met. Metalloved., No. 6, 63–68 (1990).

18.

R. H. Pry and C. P. Bean, “Calculation of the energy loss in magnetic sheet materials using a domain model,” J. Appl. Phys. 29, 532–533 (1958).CrossRef

19.

I. I. Kifer, Tests of Ferromagnetic Materials (Gosenergoizdat, Moscow, 1962) [in Russian].

20.

I. S. Tolmasskii, Metals and Alloys for Magnetic Cores (Metallurgiya, Moscow, 1971) [in Russian].

21.

B. K. Sokolov, V. V. Gubernatorov, M. M. Noskov, and A. I. Zolotarev, USSR Inventor’s Certificate No. 652230.

Titel: On the Influence of the Nonuniformity of Remagnetization of Fe–3% Si Anisotropic Electrical Steel on Magnetic Loss in Rotating Magnetic Fields
verfasst von: V. F. Tiunov
Publikationsdatum: 01.09.2018
Verlag: Pleiades Publishing
Erschienen in: Physics of Metals and Metallography / Ausgabe 9/2018
Print ISSN: 0031-918X
Elektronische ISSN: 1555-6190
DOI: https://doi.org/10.1134/S0031918X18090119

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