Microstructure and magnetic properties of anisotropic Nd–Fe–B magnets produced by spark plasma sintering technique

Temperature characteristics of coercivity and remanence for Fe-Nd-B magnets having different compositions and microstructures have been evaluated. Improved performance of a magnet at elevated temperatures can be achieved by increasing its coercivity. Higher Nd content and a proper concentration of b

With the aim of developing a large size Fe-based bulk glassy core with good soft magnetic properties by the powder metallurgy technique, we have applied the spark-plasma sintering technique to a Fe 65 Co 10 Ga 5 P 12 C 4 B 4 glassy alloy powder with a large supercooled liquid region of 50 K before c

The magnetic properties of Nd 11 Fe 72Àx Co 8 V 1.5 Cr x B 7.5 (x ¼ 0,1) nanocomposites prepared by the crystallization of amorphous precursors have been investigated. It was found that Cr addition increases the crystallization temperature of the amorphous ribbons, resulting in the formation of a me