Optimization of Nitriding Regimes for Sm sub(2)Fe sub(17) Alloy Powder

Optimization of Nitriding Regimes for Sm sub(2)Fe sub(17) Alloy Powder

Currently, the most actively developing area in the field of permanent magnets is development of those based on compounds of rare-earth metals with transition metals. This is due to their unique magnetic properties that surpass those for ferrite and lithium magnets by several factors and makes them...

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Bibliographic Details
Published in:Metallurgist (New York) Vol. 60; no. 11-12; pp. 1262 - 1266
Main Authors: Kutepov, A V, Tarasov, V P, Ignatov, A S
Format: Journal Article
Language:English
Published: 01-03-2017
Subjects:
Alloy powders
Ferrite
Iron
Magnetic properties
Nitriding
Rare earth compounds
Robots
Temperature
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Summary:Currently, the most actively developing area in the field of permanent magnets is development of those based on compounds of rare-earth metals with transition metals. This is due to their unique magnetic properties that surpass those for ferrite and lithium magnets by several factors and makes them irreplaceable with utilization in aero and automobile building, robot technology, computers, etc. Among all of the compounds of iron with rare-earth elements, the greatest iron content and, consequently, highest saturation magnetization applies to R sub(2)Fe sub(17) compounds (R is rare-earth element). Regimes are studied for nitriding alloy powders (Sm sub(0.9)Zr sub(0.1))Fe sub(17) and Sm sub(2)(Fe sub(0.9)Co sub(0.1)) sub(17) in a nitrogen atmosphere with excess pressure of 15 kPa and temperature of 440-450 degree C. Dependences are established for phase composition and main magnetic parameters of nitriding regime.
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ISSN:0026-0894
1573-8892
DOI:10.1007/s11015-017-0438-4