Halbach Arrays Permanent Magnet Motor Assemblies, Neodymium Segment Halbach Arrays, Cylinder Halbach Rotor Assembly, Axial Halbach Magnetic Bearings, NdFeB Bearing Halbach Arrays, Super strong force halbach array motor magnet Rotor Assemblies, Neodymium Halbach Magnetic Rotor Bearing Motor Halbach Arrays, Segment NdFeB Halbach Magnet China Supplier & Factory Halbach Arrays Permanent Magnet Motor Assemblies Technical Specifications: […]
Anisotropic PPS NdFeB Magnet, Axial Magnetized Injection Plastic Neodymium Magnet for Rotor, bonded NdFeB nylons 6, 11 and 12 and PPS thermoplastic injection permanent magnet assemblies for Automotive, BNI-3 Injection Molding Neodymium sensor magent for car China Factory
Injection Molded PPS NdFeB Magnet Technical
Material: Plastic Binders and NdFeB Powder
Method: Injection Mold
Part No.: MPBD-IM07H166
Application: rotor magent
Flux Force:distance 2.5 mm per pole ≥200GS
Tolerance: ±0.1 mm
Maximum Operation Temperature: 120 °C
Delivery Time: 15-30 days
Made in China
Injection Molded Plastic Magnet / Bonded PPS NdFeB Magnet
MPCO is an industry leader in the design and production of injection molded magnets. These unique magnets are made by mixing magnetic material with a polymer binder (usually nylon or PPS) which then allows the magnet to be injection molded just as any other plastic would be.
Injection molding allows the production of intricately shaped magnets with extremely tight tolerances and a wide variety of physical and magnetic characteristics. PPS NdFeB Magnet
A wide range of properties are possible depending on the type of magnetic material and binder utilized. MPCO offers both Neodymium and Hard Ferrite injection molding capability, and it is also possible to utilize a blend of different magnetic material to produce the desired properties.
MPCO’s knowledgeable product development team will assist you in choosing the optimal combination of binder and magnet material for your specific application. injection molded ndfeb, injection molding ndfeb magnet, injection molded plastic magnet
One of the greatest advantages of the injection molding process is that a high degree of shape complexity is possible — ie. gears, snap fits and undercuts. It is also possible to incorporate shafts, brushes and other inserts into the process, simplifying the magnetic assembly manufacturing process. Injection molded magnets can be insert molded directly onto or around existing components, often eliminating the need for additional steps in the manufacturing process.