ChemInform Abstract: Influence of Quenching Rate and Heat Treatment on the Magnetic Properties and Phase Components of Rapidly Quenched Fe77.5Nd4B18.5 Alloy.

Abstract

The magnetic properties and phase components of rapidly quenched Fe77.5Nd4B18.5 alloy as a function of quenching rate and heat treatment were studied. X-ray diffraction and thermomagnetic measurements show that the Fe77.5Nd4B18.5 ingot consists of Nd2Fe14B, Fe2B and alpha-Fe. The X-ray diffraction patterns of optimally annealed samples show only metastable Fe3B phase which decomposes into Fe2B and alpha-Fe at T(a) > 850-degrees-C, but the thermomagnetic curves show the presence of the Nd2Fe14B phase. In the sample annealed at 950-degrees-C for 60 min, Nd1.1Fe4B4 appears in coexistence with Nd2Fe14B, Fe2B and alpha-Fe. The Fe77.5Nd4B18.5 alloy is found to have very good glass-forming ability. Samples prepared at quenching rates upsilon-s greater-than-or-equal-to 6.6 m s-1 are amorphous and magnetically soft. Annealing at about 650-670-degrees-C gives the highest coercive field, which is nearly independent of quenching rate.