Influence of Excess Phosphorus on Surface Crystallization and Nanocrystallization in Fe-B-Si-C-Nb-P Soft Magnetic Alloys

In this study, we investigated the effects of phosphorus addition on the crystallization behavior and soft magnetic properties of Fe80-1.63xB12.5Si2.5C1Cu1Nb3-xP2.63x(x = 1 similar to 3 at%) nanocrystalline soft magnetic alloys. By increasing the phosphorus content in the alloys, we observed significant changes in thermal stability, microstructure, and magnetic properties. However, excessive phosphorus addition resulted in undesirable surface crystallization and significantly narrowed the heat treatment window, leading to a deterioration in thermal stability and soft magnetic properties. Notably, the #P-1 alloy annealed at 500 degrees C exhibited superior soft magnetic properties, achieving a coercivity of 8.4 A/m and a magnetic flux density of 1.6 T compared to the other alloys. These results suggest that optimal phosphorus additions to the nanocrystalline soft magnetic alloys can enhance nanocrystal formation, offering potential for advanced electronic applications.