Title :
Structure and Magnetic Properties of Low Neodymium Magnets Containing Minor Addition of Molybdenum
Author :
Spyra, Marzena ; Leonowicz, Marcin
Author_Institution :
Fac. of Mater. Sci. & Eng., Warsaw Univ. of Technol., Warsaw
Abstract :
Rapidly solidified nanocomposite Nd9Fe77-xB14Mox alloys, consisting of magnetic Nd2Fe14B phase and soft magnetic phases, were investigated. The effect of the molybdenum addition on the structure and magnetic properties was studied. It was found that 3-4 at% Mo addition leads to a substantial increase of the coercivity and maximum energy product maintaining the remanence to be almost unchanged. The highest properties Jr = 0.755 T,J Hc = 1030 kA/m,(BH)max= 87 kJ/m3 were obtained for the Nd9Fe73B14Mo4 alloy. This effect we ascribe to the formation of a fine and homogeneous grain structure and a change of the phase constitution in the Mo-containing alloys. The initial magnetization curve indicates a change of the coercivity mechanisms, giving rise to the pinning of domain walls, which is caused by a reduction of the crystallite size.
Keywords :
coercive force; crystal microstructure; magnetic domain walls; magnetic particles; molybdenum; nanocomposites; neodymium compounds; rapid solidification; remanence; N9Fe77B14; Nd9Fe73B14Mo4; coercivity; crystallite size; domain walls; grain structure; low neodymium magnets; magnetic Nd2Fe14B phase; magnetic remanence; magnetization curve; maximum energy product; molybdenum addition; nanocomposite; rapid solidification; soft magnetic phase; Magnetic materials; neodymium alloys;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2008.2001999
