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Tri-Neo (NdFeB)
(27)Tri-Neo magnets, composed of neodymium, iron and boron, have the highest energy product of any permanent magnet material. Since the raw materials that make of Tri-Neo magnets is relatively abundant and low in cost, the cost of Tri-Neo magnets per maximum energy product is favorable.
Tri-Neo magnet applications are expanding in the automotive, industrial and consumer electronics industries.
Tri-Neo magnets are available in a wide range of shapes, sizes and grades. For more detailed information, download individual Tri-Neo spec sheets from the table below.
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Magnet Assemblies
Tridus has established a wholly owned foreign subsidiary in Beijing, China, to fabricate and assemble magnet assemblies. Our operational control allows us to leverage the inherent cost advantages of production in China, with access to global technology and management practices. Tridus has implemented a rigorous quality assurance program, and we are ISO 9001:2000 certified. For every assembly we supply, we will establish, execute, and continuously improve all fabrication and assembly procedures, calibrate and provide extensive mechanical and magnetic performance test data. We are a global leader in the supply of magnet assemblies. We are capable of supporting rapid prototyping and pre-production runs locally in Rancho Dominguez, California, by debugging the production process and developing precise work instructions in California. You can be assured that when we ramp-up production in China, your assembly will be delivered to your exact specification. /Asset/assemblies.jpg![samarium-cobalt samarium-cobalt](/ImgSmall/samarium-cobalt.jpg)
Samarium Cobalt (SmCo)
Samarium Cobalt magnets have a maximum energy product ranging from 18 to 35 MGOe. The thermal properties of SmCo magnets are unmatched to those of rare earth magnets. SmCo magnets maintain high magnetic unit properties even in challenging high temperature or high demagnetizing field environments. Another figure of merit, is SmCo’s high Curie temperature. /Asset/samarium-cobalt.jpg![Image](/ImgCustom/1001/placeholder_notavailable.gif)
Ceramic/Ferrite
Ferrite magnets are the most widely used magnets because of their low cost. The raw materials used in ferrite magnet production are inexpensive and nonstrategic. Ferrite magnets magnets exhibit a low residual flux density because they are oxide magnets produced by powder metallurgy. Ferrite magnets are available in isotropic and anisotropic grades and have a maximum energy product range from 1 to 5 MGOe. /ImgCustom/1001/placeholder_notavailable.gif![Image](/ImgCustom/1001/placeholder_notavailable.gif)