Neodymium Disc Magnets – A Wide Range of Industrial Applications

Neodymium disc magnets are among the strongest rare-earth magnets on the market today. Available in cylinder and disc forms, Neodymium discs have unique magnetic properties that set them apart from any other permanent magnet material. These disc magnets offer exceptional performance characteristics, including better electrical conductivity and enhanced electrical power storage, for a wide range of industrial applications. The magnet power density in Neodymium discs is an astounding 14.3 tests, making it the most powerful magnet in the world.

Neodymium Disc Magnets

One of the unique benefits of Nd Feb magnets is their exceptional electrical power storage. The energy stored in a disc is stored in the form of an extremely strong magnetic field, which provides excellent electrical current transfer rates. This is achieved by the magnet’s ability to trap the negatively-charged magnetic flux on the inside surface of the disc. As a result, negative charges and repels can easily escape from the disc, reducing the total amount of energy needed to store the energy. The magnetic field also traps the positively-charged flux, which creates an efficient electricity distribution. Due to the unique architecture of these magnets, the maximum electrical current can be generated at a consistent output voltage. Because of the large amounts of energy produced from these discs, the overall performance of the disc is significantly improved.

Unlike many other magnets, Neodymium Disc Magnets does not experience the same adverse effects from temperature, humidity, and shock as traditional magnets. These discs have no other significant disadvantages when compared to other magnet types. It is not surprising that Neodymium discs have become so popular in the electronics and industrial industries. The ability to provide higher performance and greater power storage properties in a wide range of industrial applications has made these discs the perfect choice for many applications.