Materials Research Express (Jan 2021)
Magnetization performance of hard/soft Nd9.6Fe80.3Zr3.7B6.4/α-Fe magnetic nanocomposites produced by surfactant-assisted high-energy ball milling
Abstract
Neodymium iron boron (NdFeB) magnets are sintered anisotropic materials. They were commercially introduced in the early 1980s, and since have been used in different applications owing to their superior properties. Herein, we investigated the influence of 0.5 to 8 h of milling time on the morphological, structural, and magnetic performance of Nd _9.6 Fe _80.3 Zr _3.7 B _6.4 powders produced using surfactant-assisted high-energy ball milling (SA-HEBM). The results revealed that the relationship between coercivity ( H _ci ) and milling time had a non-monotonous character reaching a maximum value of H _ci = 8.92 kOe after 1 h of milling. The effect of the volume ratio of various magnetic phases (Nd _2 Fe _14 B and α -Fe) on microstructure and magnetic properties was also reported. The highest specific saturation magnetization ( σ _s = 120 emu g ^−1 ) was attained after 8 h of milling for powders with volume fraction: Nd _2 Fe _14 B–81 ± 2% and α -Fe–12 ± 2%. The expected value of Nd _2 Fe _14 B specific saturation magnetization was estimated ( σ _N = 108 ± 2.5 emu g ^−1 ) using the experimental value of σ _s and magnetic phase volume fractions. The ratio of remanence to saturation magnetization of the Nd _2 Fe _14 B with milling time was also determined and analyzed.
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