Abstract
Although Nd–Ce–Fe–B permanent magnets are inexpensive, they have degraded coercivity and poor thermal stability. To mitigate these disadvantages, in this work, we fabricated a core–shell grain structure with a Y-rich core and a (Nd, Ce)-rich shell in the Nd15.25(Ce1−xYx)15.25FebalAl0.1Cu0.1B (x = 0, 0.05, 0.10, 0.15, and 0.20) system by substituting Y for Ce. Substituting Y increased the coercivity from 7.13 kOe in the Ce1.00Y0.00 (x = 0) magnet to 9.73 kOe in the Ce0.85Y0.15 (x = 0.15) magnet. The thermal stability of its magnetic performance also improved with Y substitution, with lower temperature coefficients of remanence |α| and coercivity |β|. We explained these improvements in magnetic properties by examining the relationship between the microstructure and the properties of the core–shell grain structure.
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