Title :
Effect of small Zr additions on the microstructure of Sm2Fe17
Author :
Kubis, M. ; Brown, D.N. ; Gutfleisch, O. ; Gebel, B. ; Müller, K.H. ; Schultz, L. ; Harris, I.R.
Author_Institution :
Sch. of Metall. & Mater., Birmingham Univ., UK
fDate :
9/1/2000 12:00:00 AM
Abstract :
Microstructure and phase composition of Sm10.5+δFe89.5-δ-∞Zr∞ samples with δ=0, 1.5 and x=0, 1, 2 were investigated. The Zr addition reduces the amount of Sm-rich phase and free α-Fe in as-cast materials, whereas the Sm addition (only investigated for Zr-containing alloys) reduces the amount of free α-Fe on cost of a higher amount of Sm-rich phase. The Zr is not uniformly distributed in the as-cast materials, forming Zr-rich (Sm, Zr)Pes phase (10-20 at% Zr) besides 1:3 and 2:17 phases with lower Zr content (⩽1 at% Zr). However, after homogenization, these Zr- rich regions disappeared and the Zr was then uniformly distributed in the 1:3 phase regions. The hard magnetic properties of all samples were studied after milling and nitrogenation. The highest energy product (BH)max of 146 kJm -3 was obtained for the homogenized Zr-free sample. However, the properties of the as-cast materials are improved by the Zr-addition, with the optimum composition of Sm12FesτZr1Ny showing a (BH)max of 125 kJm-3
Keywords :
alloying additions; crystal microstructure; ferromagnetic materials; iron alloys; permanent magnets; phase diagrams; samarium alloys; zirconium alloys; Sm2Fe17; Sm2Fe17:Zr; hard magnetic properties; microstructure; milling; nitrogenation; phase composition; small Zr additions; Bonding; Iron; Magnetic materials; Magnetic properties; Magnets; Microstructure; Milling; Samarium alloys; Scanning electron microscopy; Zirconium;
Journal_Title :
Magnetics, IEEE Transactions on
