Title :
Microstructure and Magnetic Properties of High Coercivity Die-Upset Nd–Fe–B Magnets by Nd–Cu Alloy Addition
Author :
Xiao Du ; Zheng Jing ; Rui Han ; Zhaohui Guo ; Minggang Zhu ; Wei Li
Author_Institution :
Functional Mater. Res. Inst., Central Iron & Steel Res. Inst., Beijing, China
Abstract :
The coercivity of the die-upset Nd-Fe-B magnets was enhanced remarkably by the Nd-Cu eutectic alloy addition. The initial magnetization curves show that the magnetization reversal transforms from the nucleation fields for an Nd-Cu free magnet to the coexistence of the nucleation and domain-wall pinning fields for the magnet with Nd-Cu addition. The transmission electron microscopy images reveal that more triple-junction regions, which are enriched with Nd and Cu elements, distribute in the die-upset magnets with Nd-Cu addition. These regions become the domain-wall pinning center and enhance the coercivity of the magnets. Moreover, the thickness of the grain boundary phase increases with the Nd-Cu addition, which declines the coupling between the Nd-Fe-B grains and then further improves the coercivity.
Keywords :
boron alloys; coercive force; copper alloys; grain boundaries; iron alloys; magnetic domain walls; magnetisation reversal; neodymium alloys; nucleation; permanent magnets; transmission electron microscopy; Nd-Cu alloy addition; NdFeBCu; domain-wall pinning fields; grain boundary phase; high coercivity die-upset Nd-Fe-B magnets; initial magnetization curves; magnetic properties; magnetization reversal; microstructure; nucleation fields; transmission electron microscopy; triple-junction regions; Coercive force; Magnetic domains; Magnetic hysteresis; Magnetic resonance imaging; Perpendicular magnetic anisotropy; Saturation magnetization; Nd-Cu alloy addition; Nd-Fe-B magnet; die-upset method; high coercivity;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2015.2458984
