Title :
HDDR processes in Nd16Fe76-xZrxB 8 alloys and the production of anisotropic magnets
Author :
Short, C.L. ; Guegan, P. ; Gutfleisch, O. ; Ragg, O.M. ; Harris, I.R.
Author_Institution :
Dept. of Metall. & Mater., Birmingham Univ., UK
fDate :
9/1/1996 12:00:00 AM
Abstract :
The HDDR-behaviour of a series of as cast alloys given by the general formula Nd16Fe76-xB8Zrx (0⩽x⩽2.0) has been characterised by hydrogen DTA and resistivity studies, It was found that increasing values of x increased the temperature of disproportionation. Microstructural studies of the Nd 16Fe75.5Zr0.5B8 alloy showed that a Zr-Fe containing phase present at the grain boundaries in the cast and disproportionated material is transformed during recombination into a Nd-Zr-Fe containing phase. This work shows that it is possible to produce highly anisotropic HDDR material from a non-homogenised Nd16Fe75.5Zr0.5B8 cast alloy without any further additions such as Co or Ga. Under the conditions employed in these experiments it was found that the best properties were obtained for the Nd16Fe75.5B8Zr0.5 alloy with a Br value in the easy direction of 1.03T and an iHc of 775 kA/m. The high degree of anisotropy was confirmed by optical microscopy (polarised light)
Keywords :
boron alloys; desorption; ferromagnetic materials; iron alloys; magnetic anisotropy; neodymium alloys; permanent magnets; thermal analysis; zirconium alloys; HDDR processes; Nd16(FeZr)76B8; Nd16Fe76-xZrxB8 alloys; anisotropic magnets; disproportionation; grain boundaries; hydrogen DTA; hydrogenation disproportionation desorption recombination process; microstructural studies; Anisotropic magnetoresistance; Cobalt alloys; Conductivity; Gallium alloys; Hydrogen; Iron alloys; Neodymium; Optical microscopy; Temperature; Zirconium;
Journal_Title :
Magnetics, IEEE Transactions on
