Payment Type:T/T,Others
Incoterm:FOB,CFR,CIF,EXW,DDP,DDU,Express Delivery
Transportation:Ocean,Land,Air,Express,Others
Port:Guangzhou,Shenzhen,Ningbo
$0.210000-99999Piece/Pieces
$0.19≥100000Piece/Pieces
Model No.: 19X30mm
Brand: YB
Place Of Origin: China
Species: Permanent
Composition: Rare Earth Magnet, Ferrite Magnet, Neodymium Magnet, Plastic Magnet, Ndfeb Magnet, Alnico Magnet, Rubber Magnet
Shape: Ball, Coil, Block, Cup Shape, Strip, Stick, Bar, Pot / Cup Shape, Sheet
Application: Moto Magnet
Tolerance: ±1%
Processing Service: Bending, Welding, Decoiling, Cutting, Punching, Moulding
Product Name: Submersible Pump Magnet 19X30mm
Material Grade: Y30BH/Y35
Magnetization Direction: Radial
Color: Black
Certificates: CE,ROHS,MSDS
Quality Certificates: ISO9001
Delivery Time: 7-15 working days
Packaging: carton package and then packed in pallets
Productivity: 3000000pcs per month
Transportation: Ocean,Land,Air,Express,Others
Place of Origin: China
Supply Ability: 3000000pcs per month
Certificate: ISO9001
HS Code: 8505190090
Port: Guangzhou,Shenzhen,Ningbo
Payment Type: T/T,Others
Incoterm: FOB,CFR,CIF,EXW,DDP,DDU,Express Delivery
What's Ferrite Magnet Rotor?
A ferrite magnet rotor is a type of rotor used in electric motors and generators. It is made of ferrite magnets, which are a type of Permanent Magnet made from a compound of iron oxide and other elements. Ferrite magnets are known for their high resistance to demagnetization and their relatively low cost compared to other types of magnets. In a motor or generator, the ferrite magnet rotor is the rotating part that interacts with the stator to produce mechanical or electrical energy.
The production of Ferrite Magnet Rotor? The production of Ferrite Magnet Rotor involves several steps: 1. Material selection: The first step is to select the appropriate ferrite material for the magnet rotor. Ferrite magnets are made from a combination of iron oxide and other metallic elements such as strontium or barium. 2. Mixing: The selected ferrite material is mixed with a binder material, typically a polymer, to form a slurry. This slurry is mixed thoroughly to ensure a uniform distribution of the magnetic particles. 3. Molding: The slurry is then poured into a mold that has the desired shape and dimensions of the magnet rotor. The mold is typically made of steel or other materials that can withstand high temperatures and pressures. 4. Pressing: The slurry-filled mold is subjected to high pressure to compact the mixture and remove any air bubbles. This step helps to increase the density and strength of the magnet. 5. Sintering: The compacted mold is then heated to a high temperature in a controlled atmosphere. This process, known as sintering, helps to fuse the magnetic particles together and create a solid magnet. 6. Machining: After sintering, the magnet rotor is machined to achieve the desired dimensions and surface finish. This may involve cutting, grinding, and polishing the magnet to remove any excess material and achieve the required tolerances. 7. Magnetization: The final step is to magnetize the rotor. This is done by subjecting the magnet to a strong magnetic field, either by using an electromagnet or by passing a current through the rotor. This aligns the magnetic domains within the material and gives the rotor its magnetic properties. Once the production process is complete, the ferrite magnet rotor can be used in various applications such as electric motors, generators, and magnetic separators.
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