Nauka innov. 2005, 1(3):92-111
https://doi.org/10.15407/scin1.03.092

A. P. Shpak, V. V. Maslov, V. K. Nosenko
G. V. Kurdyumov Institute for Metal Physics, NAS of Ukraine, Kyiv

 

Resource-Saving Technologies for Production of Nanocrystalline Precision Magnetic Materials as Component of Innovation Development of Power and Electric Engineering  Industries of Ukraine

Section: Scientific and Technical Innovative Projects of National Academy of Sciences of Ukraine
Language: Ukrainian
Abstract: Results of execution in the G. V. Kurdyumov Institute for Metal Physics of the innovation project on development and processing of the soft magnetic nanocrystalline ribbon iron based alloys by rapid melt quenching as well as of the technology for making the magnetic cores with high time and temperature stability of the magnetic properties are considered. The examples are listed and the prospects are described for the broad application of the developed nanocrystalline magnetic cores in such branches of industry of Ukraine as power engineering, electrical engineering, device-making.
Key words: innovation, nanocrystalline alloys, magnetic cores, magnetic properties, resource-saving technology, power engineering, electrical engineering, device-making.

References:
1. Tankevych Je.M. Pervynni vymirjuval'ni kanaly system kompleksnoi' avtomatyzacii' elektroenergetychnyh ob'jektiv. Avtoreferat dysertacii' na zdobuttja naukovogo stupenja doktora tehnichnyh nauk. IED NANU, Kyiv, 2004 [in Ukrainian].
2. Gurtovcev A.L, Bordaev V.V., Chizhonok V.I. Nizkovol'tnye odnofaznye izmeritel'nye transformatory toka. Jelektricheskie seti i sistemy, 2004, 3:44–53 [in Russian].
3. Miroshnichenko I.S., Salli I.V. Ustanovka dlja kristallizacii splavov s bol'shoj skorost'ju ohlazhdenija. Zavodckaja laboratorija, 1959, 25(11):1398–1399 [in Russian].
4. Duwes P., Willens R.H., Klement W. Continuous series of metastable solid solutions in silver-copper alloys. J. Appl Phys., 1960, 31(6):1136–1139 [in English].
https://doi.org/10.1063/1.1735777
5. Miroshnichenko I.S. Zakalka iz zhidkogo sostojanija. M.: Metallurgija, 1982 [in Russian].
6. Efimov Ju.V., Varlimont G., Muhin G.G. i dr. Metastabil'nye i neravnovesnye splavy. M.: Metallurgija, 1988 [in Russian].
7. Maslov V.V., Paderno D.Ju. Poluchenie amorfnyh metallicheskih splavov. Amorfnye metallicheskie splavy. Kyiv: Nauk. dumka, 1987:52–86 [in Russian].
8. Pat. 3862658 USA. Extented retention of melt-spun ribbon on quenching wheel. J.R.Bedell. Publ.28.01.75 [in English].
9. Libermann H.H., Graham C.D. Production of amorphous alloy ribbons and effects of apparatus parameters on ribbon dimensions. IEEE Trans. Magn., 1976, MAG 12(6):921–923 [in English].
https://doi.org/10.1109/TMAG.1976.1059201
10. Yoshizawa Y., Oguma S., Yamauchi K. New Fe-based soft magnetic alloys composed of ultraflne graine structure. J.Appl. Phys., 1988, 64(10):6044–6046 [in English].
https://doi.org/10.1063/1.342149