Following the shaping and treatment phase, magnets are often coated with a protective layer to prevent corrosion and mechanical wear. Neodymium magnets, for instance, are highly susceptible to oxidation and typically receive coatings of nickel, zinc, or epoxy resin. These coatings not only protect the magnet but also make it easier to handle and integrate into devices. The coating process can involve electroplating, spray coating, or dipping, and is selected based on the final application of the magnet.
Magnetization is the final critical step in the manufacturing process. This involves exposing the finished magnet to a strong external magnetic field, which aligns the magnetic domains within the material and gives the magnet its permanent magnetic field. The Plate Magnets strength and direction of this magnetizing field depend on the type of magnet and its intended application. For example, some magnets are magnetized through thickness, while others may be magnetized across diameters or in multi-pole configurations for use in motors or sensors.
After magnetization, quality control becomes paramount. Each magnet must be tested for parameters such as magnetic field strength, resistance to demagnetization, temperature stability, and dimensional accuracy. Sophisticated testing equipment including Gauss meters, flux meters, and coordinate measuring machines are used to evaluate the magnets and ensure they meet strict industrial or consumer standards. In critical industries such as aerospace or medical equipment manufacturing, even more rigorous testing protocols may be applied.
Packaging and logistics are also crucial elements of the magnet manufacturing industry. Because magnets can interfere with electronic devices and attract ferrous objects during transport, they must be securely packaged using shielding materials. Additionally, many countries have regulations regarding the air transportation of strong magnets, so compliance with international shipping standards is essential.
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