Controlling the particle size distribution of magnetic powder in the manufacture of bonded ndfeb magnets is a complex systems engineering project involving raw materials, processes, equipment, and environment.
Sintered NdFeB magnets are hailed as the "strongest permanent magnet material in modern times," widely used in high-end fields such as new energy vehicle drive motors, wind turbines, industrial servo systems, and consumer electronics due to their extremel
In modern high-end manufacturing and precision engineering, efficient space utilization and structural design freedom are becoming increasingly important.
As an important type of permanent magnetic material, bonded NDFEB has a close relationship between its density and magnetic properties.
Only by deeply understanding the "behavioral logic" of magnets in a complex environment can we achieve precise control in the invisible magnetic field.
At the pinnacle of modern technology, high-performance custom-shaped rare earth permanent magnets, with their unparalleled magnetic density and groundbreaking design freedom