Hall Sensor Ferrite Radial 6-pole Magnetization Magnetic Ring

Hall Sensor Ferrite Radial 6-pole Magnetization Magnetic Ring, Customized Multipole Radial Ring Sensor Ferrite Magnets, Multi-Polars Ceramic Permanent Motor Speed Measuring Magnets, Hard Ferrite Isotropic Ring Magnet China Supplier

Hall Sensor Ferrite Radial 6-pole Magnetization Magnetic Ring Features:
Specification size: custom design drawing
Magnetizing mode: Radial 6 poles
Type: Permanent
Composition: Ferrite Magnet

Homogeneous ferrite is one of the most common magnets. It is produced by powder metallurgy. It is cheap, heat-resistant, corrosion-resistant and difficult to demagnetize. It can produce round, square, tile, ring, U-shaped and so on.
Homogeneous magnet ring, multi-pole radial magnetization, with a large number of specifications and sizes, welcome to consult and customize.
Usage: It can be used for water heater, gas meter, water meter, instrument, dishwasher, etc.
If you are interested in this product, please contact us as soon as possible. Multipolar Isotropic Ferrite Rings

Sintered Ceramic/Ferrite magnets are formed by compaction in dedicated, multi-cavity dies followed by sintering in high temperature furnaces. This produces a hard, brittle part that requires specialized equipment for grinding to close tolerances. While physically quite strong, these magnets like all cast or sintered magnetic materials should not be considered a structural member in an assembly. And like most ceramics, they are brittle not unlike glass, and should be handled with due care to avoid chipping and cracking. Four-Polars Multipole Ceramic Rings for Motor Magnetic Rotor

The corrosion resistance of Ceramic/Ferrite is considered excellent, and no surface treatments are required. Ferrite magnets may have a thin film of fine magnet powder on the surface and for clean, non-contaminated applications some form of coating may be required. They are rather porous, and there may be applications where the surface should be sealed. Urethanes and epoxies work well. In addition, ferrite magnets lend themselves to printing.

Hard Ferrite magnets have excellent corrosion resistance and have normal operating capabilities between -40°C and +250°C. At extremely low temperatures there is a risk of permanent demagnetization in magnet systems with low permeance coefficients. Ferrite magnets have good intrinsic coercivity, making them resistant to demagnetizing effects.

USA　standard of Ferrite Magnets