Sintered Samarium Cobalt Arc Segment Magnets Item NO. MPCO-SCS series
Material: Samarium Cobalt
Shape: segment, arc, tile
Grade:Smco5,Sm2Co17 etc.
Magnetic properties:Hcj,Hcb,BH,Br,BHmax,working temperature.
Application:widely used in sensor,speakers,reed switches,motor,rotor,wind turbines/generators,AC/DC motors,drive motors,servo motors etc.
Material: Samarium Cobalt
Shape: segment, arc, tile
Grade:Smco5,Sm2Co17 etc.
Magnetic properties:Hcj,Hcb,BH,Br,BHmax,working temperature.
Application:widely used in sensor,speakers,reed switches,motor,rotor,wind turbines/generators,AC/DC motors,drive motors,servo motors etc.
Magnetization directions:by Axial or by radial.
Sintered Samarium Cobalt magnetic materials, unlike common commercial materials that have ASTM classifications, are difficult to manufacture and fabricate and present a special set of challenges. Therefore, the design team must take special care when creating a custom solution for your application. Common design challenges with SmCo Magnetic Materials include:
Are typically environmentally unstable (highly reactive and prone to oxidation). Common coating and plating solutions usually do not translate to magnetic alloy.
Will gain or lose magnetic field relative to the operational temperature fluctuations necessitating the need to design for magnetic performance through a temperature spectrum.
Can experience irreparable harm at extreme temperature exposures. This harm is irrecoverable and represents an effective partial or total demagnetization of the magnet.
Challenging to fabricate because conventional machine tools and machining methods are not feasible.
Challenging to design because the magnetic field density and resulting force are not linear relative to distance.
Are typically environmentally unstable (highly reactive and prone to oxidation). Common coating and plating solutions usually do not translate to magnetic alloy.
Will gain or lose magnetic field relative to the operational temperature fluctuations necessitating the need to design for magnetic performance through a temperature spectrum.
Can experience irreparable harm at extreme temperature exposures. This harm is irrecoverable and represents an effective partial or total demagnetization of the magnet.
Challenging to fabricate because conventional machine tools and machining methods are not feasible.
Challenging to design because the magnetic field density and resulting force are not linear relative to distance.
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