| Article |
|---|
| Article name |
The Effect of Thermomagnetic Treatment Conditions on Magnetic Hysteresis Properties of Fe-Cr-Co Hard Magnetic Powder Alloys with 12 and 16 wt. % Cobalt |
| Authors |
Vompe T.A. Postgraduate Student, Researcher, tvompe@gmail.comUstyukhin A.S. Research Engineer, fcbneo@yandex.ruMilyaeiv I. . Doctor of Engineering Science, Leading Researcher, imilyaev@mail.ruZelenskiy V.A. Candidate of Physics and Mathematics, Leading Researcher,, zelensky55@bk.ru |
| Bibliographic description |
Vompe T.A., Ustyukhin A. S., Milyaev I. M., Zelensky V. A. The Effect of Thermomagnetic Treatment Conditions on Magnetic Hysteresis Properties of Fe-Cr-Co Hard Magnetic Powder Alloys with 12 and 16 wt. % cobalt Scholarly Notes Of Transbaikal State University. Series Physics, Mathematics, Engineering, Technology. 2016. Vol. 11, No 4. P. 77-84. DOI:10.21209/2308-8761-2016-11-4-77-84. |
| Section |
BIOTECHNOLOGY |
| UDK |
621.762+669.1 |
| DOI |
10.21209/2308-8761-2016-11-4-77-84 |
| Article type |
|
| Annotation |
In the present work, hard magnetic Fe-Cr-Co alloys containing 12 and 16 wt. % cobalt were obtained by powder metallurgy method. Molybdenum and silicon were used as alloying additives. Vacuum sintering of this alloys allows us to obtain specimens with relative density 96.5—98.5 %. Comparison of magnetic hysteresis properties of Fe-26 % Cr-16 % Co-2 % Mo- 0,5 % Si and Fe-26 % Cr-12 % Co-3 % Mo-0,5 % Si alloys indicated that alloy with 16 wt. % cobalt content usually has a higher coercivity, while alloy with 12 wt. % cobalt content has a higher residual induction. It was found that magnetic hysteresis properties depend on treatment start temperature and cooling rate in a magnetic field. It is possible under certain settings of thermal treatment to obtain an alloy containing 12 wt. % cobalt magnetic hysteresis properties comparable to standards for alloys with 15-16 wt. cobalt. Using alloys with low cobalt content will reduce the economic cost production of permanent magnets and rotors for hysteresis motors.
|
| Key words |
magnetic properties, hard magnetic alloys, coercive force, residual induction, heat treatment |
| Article information |
|
| References |
1. Sergeev V. V., Bulygina T. I. Magnitotverdye materialy. M.: Energiya, 1980. 224 s.
2. Artamonov E. V., Libman M. A., and Rudanovskii N. N. Magnetically Hard Materials for the Motors of Synchronous Hysteresis Electric Motors // Steel in Translation, 2007. Vol. 37, No 6. P. 547-551.
3. Gidrodinamicheskii giroskop: 2310163 pat. Ros. Federatsiya. № 2006132884/28: zayavl. 14.09.06: opubl. 10.11.07. 11 s.
4. Libman M. A. Magnitotverdye splavy na osnove sistemy Zhelezo-Khrom- Kobal’t // Materialovedenie. 2010. № 9. S. 58-64.
5. YYMagnetics [Elektronnyi resurs] Rezhim dostupa: http://smi-
mag.com/FeCrComagnets.html) (data obrashcheniya: 11.05.2016).
6. Ryaposov I. V., Shatsov A. A. Osobennosti legirovaniya, struktura i svoistva poroshkovogo magnitotverdogo splava s povyshennymi ekspluatatsionnymi kharakteristikami // Perspektivnye materialy. 2009. No 1. C. 57-61.
7. Green M. L., Sherwood R. C., Wong C. C. Powder metallurgy processing of CrCoFe permanent magnet alloys containing 5-25 wt. % Co // J. Appl. Phys. 1982. Vol. 53, №.3. P. 2398-2400.
8. Alymov M. I., Ankudinov A. B., Zelenskii V. A., Milyaev I. M., Yusupov V. S., Ustyukhin A. S. Vliyanie legirovaniya i rezhima spekaniya na magnitnye gisterezisnye svoistva Fe-Cr-Co poroshkovogo splava // Fizika i khimiya obrabotki materialov. 2011. № 3. C. 34-38.
9. Alymov M. I., Ankudinov A. B., Zelenskii V. A., Milyaev I. M., Yusupov V. S., Vompe T. A. Vliyanie poverkhnostno-aktivnykh dobavok pri pomole na protsessy pressovaniya, spekaniya i magnitnye svoistva poroshkovogo splava FeCrCoMoW // Perspektivnye materialy. 2014. № 4. C. 51-57.
10. Ustyukhin A. S., Alymov M. I., Milyaev I. M. Magnitnye gisterezisnye svoistva Fe-26Cr-16Co poroshkovykh magnitotverdykh splavov // Pis’ma o materialakh. 2014. T. 4, № 1. C. 59-61.
11. Ustyukhin A. S., Vompe T. A., Milyaev I. M., Zelenskii V. A. Issledovanie magnitnykh gisterezisnykh svoistv Fe-26Cr-16Co poroshkovykh splavov v zavisimosti ot uslovii spekaniya i termoobrabotki // Uchenye zapiski Zabaikal’skogo gosudarstvennogo universiteta. Ser. Fizika, matematika, tekhnika, tekhnologiya. 2015. № 3. C. 112-119. |
| Full article | The Effect of Thermomagnetic Treatment Conditions on Magnetic Hysteresis Properties of Fe-Cr-Co Hard Magnetic Powder Alloys with 12 and 16 wt. % Cobalt |
