Injection Molded Magnetic Components

Injection Molded Magnetic Components, 8 poles outerside magnetizing Injection PPS Neodymium Magnet for braking system of sensor magent, bonded NdFeB nylons 6, 11 and 12 and PPS thermoplastic injection permanent magnet assemblies for sensor, BNI-5 Injection Molding Neodymium magent  China Factory

Injection Molded Magnetic Components Technical
Material: Plastic Binders and NdFeB Powder
Method: Injection Mold
Part No.: MPBD-IM07H109
Magnetization:outer 8 poles
Application:braking system of sensor magent
Flux Force:distance 1 mm per pole≥300GS
Dimension:(φ17-φ3.15)×4
Grade: BNI-5
Automotive Application
Tolerance: ±0.1 mm
Maximum Operation Temperature: 120 °C
Delivery Time: 15-30 days
Made in China

What is Bonded magnet
The bonded magnet is one of the most important magnetic materials. It opened a new world of application possibilities. Thermo-elastomer and thermoplastic resins can be blended together with a variety of magnetic powders to form the injection molded, compression and flexible magnets. Injection Molded Sensor Magnets

Injection molded magnets can be formed into complex shapes and be insert molded directly into other components to produce assembly parts. Compression bonded magnets offer higher magnetic output than injection-molded magnets but are limited to more simple geometries. Injection Molded Magnetic Components, injection neodymium magnet

Bonded magnet materials can be created through Injection Molded and can be made from NdFeB, Strontium Ferrite or a combination of the two. Bonded magnets that are created through injection molding can be molded into complex shapes and also molded directly into components. Bonded magnets can also be created through the process of compression bonding which offers higher magnetic output but is limited to simpler geometries than Injection Molded materials. Compression Bonded magnets can be made from either NdFeB or SmCo powders. Injection Molded Neodymium Sensor Injection Molded Magnetic Components

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.