Magnetic Hysteresis Properties of Isotropic Hard Magnetic Fe–Cr–Co Compositions Alloyed with Tungsten

Hard magnetic Fe–30Cr–20Co (wt %) compositions alloyed with to 3 wt % tungsten are obtained by powder metallurgy. The studies of the magnetic properties show that tungsten additions increase coercive force H c and maximum energy product ( BH ) max but decrease remanence B r . This effect increases a...

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Veröffentlicht in:Russian metallurgy Metally 2023-07, Vol.2023 (7), p.933-939
Hauptverfasser: Ustyukhin, A. S., Zelenskii, V. A., Milyaev, I. M., Alymov, M. I., Kovalev, D. Yu, Shustov, V. S.
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Sprache:eng
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Zusammenfassung:Hard magnetic Fe–30Cr–20Co (wt %) compositions alloyed with to 3 wt % tungsten are obtained by powder metallurgy. The studies of the magnetic properties show that tungsten additions increase coercive force H c and maximum energy product ( BH ) max but decrease remanence B r . This effect increases as the tungsten content in the material increases. The maximum values of H c (55.8 kA/m) and ( BH ) max (17.2 kJ/m 3 ) are observed for the alloy with 3 wt % W. In this case, the alloys investigated in the present study were found to be sensitive to heat-treatment conditions. According to X-ray diffraction data, the alloys subjected to a complete heat treatment cycle are characterized by the presence of a marked fraction of the nonmagnetic γ phase; however, in this case, the magnetic properties correspond to those observed for analogous as-cast alloys. In the course of compression tests, all compositions alloyed with tungsten fail before reaching a strain of 20%, whereas, under the same condition, the unalloyed Fe–30Cr–20Co (wt %) composition is deformed without failure. Thus, tungsten additions decrease the plasticity of the material.
ISSN:0036-0295
1555-6255
1531-8648
DOI:10.1134/S003602952307011X