Effect of Wheel Speed on the Structure, Microstructure, Magnetic, and Electrical Properties of Tb-Fe-Co Ribbons

“…NdFeB based alloys are most widely used and best-performing permanent magnets, and they play an important role and found various applications in industry since their discovery [1][2][3][4][5]. The outstanding permanent magnetic properties of these materials are based on the hard ferromagnetic tetragonal Nd 2 Fe 14 B phase which has a large saturation magnetization and a high anisotropy field [6][7][8]. Owing to the superior magnetic properties, NdFe-B magnets are used in wide range of industrial applications such as servo motors, hybrid vehicles, wind turbines, industrial motors and generators, automotive applications, magnetic resonance imaging, and so on.…”

Effect of Chill Wheel Cooling on Magnetic Properties of Nd<sub>15</sub>Fe<sub>77</sub>B<sub>8</sub> Alloy Powders Produced by Melt Spinning Method

“…NdFeB based alloys are most widely used and best-performing permanent magnets, and they play an important role and found various applications in industry since their discovery [1][2][3][4][5]. The outstanding permanent magnetic properties of these materials are based on the hard ferromagnetic tetragonal Nd 2 Fe 14 B phase which has a large saturation magnetization and a high anisotropy field [6][7][8]. Owing to the superior magnetic properties, NdFe-B magnets are used in wide range of industrial applications such as servo motors, hybrid vehicles, wind turbines, industrial motors and generators, automotive applications, magnetic resonance imaging, and so on.…”

Effect of Chill Wheel Cooling on Magnetic Properties of Nd<sub>15</sub>Fe<sub>77</sub>B<sub>8</sub> Alloy Powders Produced by Melt Spinning Method

The Role of Wheel Surface Quality on Structural and Hard Magnetic Properties of Nd–Fe–B Permanent Magnet Powders

Effect of Cooling Rate on Dynamic Magnetic Hysteresis Loop Behaviors of Magnetic Materials by Using as a Model Mixed Spin (1, 3/2) Ising System Under an Oscillating Magnetic Field