Flat Linear Motion Magnet, Linear Motor Magnetic Assembly, Magnetic Track for Iron Core Linear Motors, Neodymium Magnetic Assemblies for LINEAR Motor, high-speed liner motion magnet assembly and transport Flat Linear Motion Magnet features: 1.There is a special department for managing the Magnet Assembly, which is consists of two sub-departments; it is leaded by experienced engineers, […]
Inner Rotor Neodymium Iron Born Motor Magnet, N52 Neodymium Magnet Magnetic Motor Components, Magnetic Motor Parts with N52 Magnet, Magnetic coupling, Permanent Magnet Generator Stator and Rotor, Motor and Driven Shaft Magnets
Inner Rotor Neodymium Iron Born Motor Magnet Description:
1 Inner Rotor
2 N52 Neodymium Magnet
3 Inner Rotor
4 Spacer Sleeve
Magnet: Neodymium Magnet
Sleeve: Austenite stainless steel, such as SS304, SS316.
Main part: 20# steel, martensitic stainless steel
2. Advantages of Neodymium Iron Born Motor Magnet
Magnetic coupling for standard applications
No contact of torque transmitting elements
No maintenance necessary
High efficient can optional
3. Recommended applications
-Oil and g as industry
-Top drive mixers/agitators
Magnetic coupling is a coupling that transfers torque from one shaft, but using a magnetic field rather than a physical mechanical connection.
Magnetic couplings are most often used for liquid pumps and propeller systems, since a static, physical barrier can be placed between the two shafts to separate the fluid from the motor operating in air. Magnetic couplings preclude the use of shaft seals, which eventually wear out and fail from the sliding of two surfaces against each another. Magnetic couplings are also used for ease of maintenance on systems that typically require precision alignment, when physical shaft couplings are used, since they allow a greater off axis error between the motor and driven shaft. outer rotor rare earth motor magnet, n52 neodymium magnet magnetic motor components
Manuafacturing Process and Magnetization
1. With dry process can produce isotropic & anisotropic magnets, the tool can be changed and developed easily.
2. With wet process only can produce anisotropic magnets,it is complicated to change the tool and the tooling charge is high.
3. Isotropic ferrite magnets can be magnetized in any direction.
4. Anisotropic ferrite magnets are all oriented in the manufacturing direction, and can be magnetized in the direction of orientation.