M. Ito et al., EFFECT OF MILLING ATMOSPHERE ON THE PREPA RATION OF SM2FE17NX POWDER BY MECHANICAL GRINDING, Nippon Kinzoku Gakkaishi, 60(4), 1996, pp. 427-432
The preparation of Sm2Fe17Nx permanent magnet powders has been tried b
y mechanical grinding (MG) for a short time without crystallization he
at treatment which was usually needed to obtain a Th2Zn17 structure in
the conventional method by MG or MA. MG was carried out in three kind
s of atmospheres; i.e., Ar, N-2 and NH3 gas. Nontreated and hydrogenat
ed Sm2.5Fe17 ahoy powders were used as the starting materials. The alp
ha-Fe precipitation was detected in the powder after MG for over 14.4
ks. The grain size of powder obtained by MG for 10.8 ks was around 10
nm which was much finer than the single magnetic domain size of about
300 nm. The existence of hydrogen promoted not only the nitriding of p
owders but the oxidation. The hydrogenated powder after MG in NH3 and
nitriding had a high oxygen content of about 13000 ppm. This oxidation
prevented the absorption of nitrogen during the nitriding process. Th
e non-treated powders after MG in NH3, however, were nitrided efficien
tly up to 38000 ppm at a low temperature of 623 K, and the oxygen cont
ent was about 7000 ppm. The maximum coercivity of 0.93 MA . m(-1) (11.
7 kOe) was obtained with the non-treated powder after MG in NH3 and ni
triding at 623 K for 10.8 ks in N-2.