Mitre Magnets, sintered neodymium mitre rod magnets, Rare Earth (Neodymium) Mitre Cylinder-shaped Magnets, Ndfeb mitre magnets 45 °– Mitre magnets, Ultra High Perormance Mitre Magnets
Mitre magnets are the strongest magnets in the present time, their power is such that it is imperative to handle them with the utmost caution (risk of pinching, depending on the size of the magnet), please do not leave within reach of children. Rare earth mitre shaped magnets are made from neodymium-iron-boron, the maximum temperatures of use of magnets we sell is 80 ° C (we are able to provide, upon request, neodymium magnets whose max temp of use up to 150 ° C). Our mitre powerful magnets have an axial magnetization. On request, we are also able to sell magnets of other materials (AlNiCo, SmCo) supporting higher temperatures but whose power is less than that of neodymium.
Ultra High Perormance mitre magnet have a 45 degree mitre bevel on one face and have exciting possibilities for magnet motor designers and inventors as the magnetic field leans towards the shortest side of the magnets creating an unequal flux path and a different flux density on each of the two poles. These magnets will have approximately 6000 Gauss on each face. Each magnet can support a steel weight of up to 3.6kg vertically from the magnetic face when in flush contact with a mild steel surface of equal thickness to the magnet. Each magnet can also support up to 0.72 kg in a shear position before beginning to slide down a steel surface under the same conditions.
Angled Mitre Magnets are commonly used in magnetic electric motors such as those used in electric or hybrid motor vehicles and in household appliances such as washing machines. These strong magnets have a maximum operating temperature of 80 degrees Celsius.
If you require more information about HSMAG rare earth rod-mitres our sales team will be happy to help you.
Mitre Neodymium Magnets, Ndfeb mitre magnets 45 °– Mitre magnets, Ultra High Perormance Mitre Magnets Mitre neodymium magnets are the strongest magnets in the present time, their power is such that it is imperative to handle them with the utmost caution (risk of pinching, depending on the size of the magnet), please do not leave within […]