Ring SmCo Permanent Magnet with High Working Temp

/Ring SmCo Permanent Magnet with High Working Temp
  • Ring SmCo Permanent Magnet with High Working Temp
Primary Competitive Advantages:
  • We are A Professional Permanent Magnets & Magnetic Assemblies Company Operating Since 2004
  • All Magnetic Grade for Sintered & Bonded Magnets
  • Our Quality Guaranteed
  • We Ship Worldwide
  • Small Orders Accepted
  • OEM Design Approvals
  • All Payment Accepted
  • Ring SmCo Permanent Magnet with High Working Temp YXG-26H, Custom Magnetic Ring for Engine Motor, Samarium Cobalt Rotor Assembly, OEM SmCo Rare Earth ring magnets for Induction Synchronous motors DC motors, Permanent Motor Generator Rotor Magnet, Super Strong SmCo magnets China Factory

    Ring SmCo Permanent Magnet with High Working Temp YXG-26H Item No. MPCO-SCMR  series
    Customzied Specific Requirements
    OEM or ODM service: Accept
    Dimension: Customized size
    Custom Grade: SmCo5,  Sm2Co17
    Magnetization direction: Thickness, Length, Axially, Diametre, Radially, Multipolar
    Surface Treatment: UNCOATED, Silver, Gold, Zinc, Ni-cu-Ni. Epoxy etc.
    Tolerance: +/-0.02 – 0.05mm

    SmCo Magnet Ring General Description
    1, We are high-tech enterprise based on the perfect combination of capital and technology, the main products cover Smco5 and Sm2Co17 magnet, samarium cobalt powder and various assemblies, etc.
    2, Our smco magnets are: High(BH)max, high Br and high Hc with high operating temperature, low temperature coeficient, counter-demagnetization, decay resistance, which applied in the high tech fields of communication, automobiles, computers, medical treatment, electric machinery, military project, and aerospace.
    SMCo magnet has high property with low temperature coefficient. Its operation temperature can reach 350° C. And it’s no need to be plated because of its high anti-erosion and anti-oxidization. Applications: SMCo magnet is widely used in motors, instrument, transducers, positional detector, generators, radar and other hi-tech industry…

    Engine Motor Assembly Samarium Cobalt Rotor Magnet

    Engine Motor Assembly Samarium Cobalt Rotor Magnet

    Samarium Cobalt (SmCo) Magnets
    Extremely strong rare earth magnets, Samarium Cobalt magnets (SmCo) are composed of samarium, cobalt and iron. Not sure if samarium cobalt is the best material for your application? Review our permanent magnetic materials comparison for more information. High Performance SmCo Permanent Magnet Ring, High Anti-erosion and Anti-oxidization Ring-shape SmCo Magnets for Radar, Ring Shape Micro SmCo Permanent Magnets for Optical Isolator, Sintered SmCo Magnet Ring for Engine Motor

    Applications of Samarium Cobalt Magnets
    Computer disc drives
    Traveling wave tubes
    Linear actuators
    Satellite systems
    Motors where temporary stability is vita
    Positional detector

    Attributes of Samarium Cobalt Material
    High resistance to demagnetization
    High energy (magnetic strength is strong for its size)
    Good temperature stability
    Expensive material (cobalt is market price sensitive)
    Excellent corrosion resistance

    DC motor ring shape SmCo rare earth magnet

    DC motor ring shape SmCo rare earth magnet

    Self-contained devices that convert electrical, chemical, or nuclear energy into mechanical energy are called motors and engines. In many areas of the world they have replaced human and animal power by providing energy for transportation and for driving all kinds of machines. The chemical energy of a fuel can be converted by combustion into thermal, or heat, energy in a heat engine. The engine in turn converts the thermal energy into mechanical energy, as in engines that drive shafts. When the combustion occurs within the same unit that produces the mechanical energy, the device is called an internal-combustion engine. Automobile gasoline or diesel engines are internal-combustion engines. The steam engine, on the other hand, is an external-combustion engine the boiler is separate from the engine. Electric motors convert electrical energy into mechanical energy.

    DC motors provide torque and speed control at a lower cost than AC units and are mechanically more complex. The pole field winding on the stator is composed of magnetic poles, each with many turns carrying a small current. The armature winding is placed on the rotor with the ends of each coil connected to opposite bars. As the rotor turns, the specific coil carrying the current changes, but its relative location to the stationary field remains fixed.

    error: Content is protected !!