Hard Anisotropic Ferrite Magnet Ceramic magnets (also known as "ferrite" magnets) are part of the permanent magnet family and are currently the lowest cost hard magnets. The ceramic (ferrite) magnet composed of strontium carbonate and iron oxide has medium strength and can be used at quite high temperature.
Hard Anisotropic Ferrite Magnet Ceramic magnets (also known as "ferrite" magnets) are part of the permanent magnet family and are currently the lowest cost hard magnets. The ceramic (ferrite) magnet composed of strontium carbonate and iron oxide has medium strength and can be used at quite high temperature.
Arc Neodymium Magnet with epoxy black coating Neodymium magnet (NdFeB), commonly known as "rare earth" magnet, is a high-performance permanent magnet made of neodymium, iron and boron alloys. They are real permanent magnets and will not lose their magnetism unless heated to a temperature exceeding the maximum operating temperature rating or their protective coating is damaged. Characteristic: -Energy products may exceed 50mgoe -Low corrosion resistance Applications: -automotive -electronics (sensors, speakers, scanners) -medical (scanners) -magnetic separators
Arc Neodymium Magnet N35 N42UH N45SH And Etc. 1.Dimensions: Customized / As Required 2.Materials: Nd-Fe-B N35,N38,N40,N42,N42,N50,N52,N55 (Grade of NdFeB Magnet) 3.Plating/Coating: Nickel,Zinc,Epoxy and etc. 4.Magnetization direction: Diametrical magnetized for a pair 5.Max operating temp.: 80-220 degrees celsius Arc neodymium magnet widely use for motors,generator and etc.
Hard Anisotropic Ferrite Magnet Ceramic magnets (also known as "ferrite" magnets) are part of the permanent magnet family and are currently the lowest cost hard magnets. The ceramic (ferrite) magnet composed of strontium carbonate and iron oxide has medium strength and can be used at quite high temperature.
ARC Neodymium Magnet Neodymium magnet (NdFeB), commonly known as "rare earth" magnet, is a high-performance permanent magnet made of neodymium, iron and boron alloys. They are real permanent magnets and will not lose their magnetism unless heated to a temperature exceeding the maximum operating temperature rating or their protective coating is damaged. Characteristic: -Energy products may exceed 50mgoe -Low corrosion resistance Applications: -automotive -electronics (sensors, speakers, scanners) -medical (scanners) -magnetic separators
N42 Arc Neodymium Magnet Size: φ3 ----- 220mm Grade: N35 -----N52 Working Tempt. :80---220 deg. C Shape:Ring、Cylinder、Rectangular、Runway-Type、Segmentor Customed Production Capacity:1000 tons/year Coating: Zn, Ni, NiCuNi, Gold, Epoxy, Cr, etc, (Zn-coating: equal to or above 5μm, & at least 24 hours’ Salt Spray Test; Ni-coating: equal to or above 15μm, & at least 48 hours’ Salt Spray Test or 96 hours' according to customers' request. )
Hard Anisotropic Ferrite Magnet 1.Dimensions: According to your requirements 2.Grade: Y30,Y30BH,Y30BH-1,Y35 and etc 3.Magnetized: Diametrical,Width,Thickness,as optional 4.Size:max out dia. 280mm,max thickness 40mm 5.Tolerance:OD and ID 2%,+/-0.1mm for thickness
Arc Neodymium Magnet Neodymium magnet (NdFeB), commonly known as "rare earth" magnet, is a high-performance permanent magnet made of neodymium, iron and boron alloys. They are real permanent magnets and will not lose their magnetism unless heated to a temperature exceeding the maximum operating temperature rating or their protective coating is damaged. Characteristic: -Energy products may exceed 50mgoe -Low corrosion resistance Applications: -automotive -electronics (sensors, speakers, scanners) -medical (scanners) -magnetic separators
Block Neodymium Magnet 1.Dimensions: Customized / Produce according to your needs 2.Materials: NdFeB,Grade N35 to N52 (M,H,SH,UH,EH AH) 3.Plating/Coating: Nickel,Zinc,Epoxy and etc. 4.Magnetization direction: Through thickness,width,or length 5.Max operating temp.: 80 to 220 degrees celsius It can be very small block/cube,or it can be big block/bar and become a very powerful magnet.They are often used for industrial applications.
Laminated Magnet 1. Insulation layer thickness within 0.04mm. Insulation layers: 2-40 layers. 2. At normal temperature, the bonding strength of the insulation layer can reach more than 50Mpa. 3. The maximum operating temperature is 60-250 ℃. 4. Tolerance is within 0.05mm. 5. Each magnets are insulated from each other.
Laminated Magnet 1. Insulation layer thickness within 0.04mm. 2. At normal temperature, the bonding strength of the insulation layer can reach more than 50Mpa. 3. The maximum operating temperature can reach 200 ℃. 4. Tolerance is within 0.05mm. 5. Each magnets are insulated from each other.
Laminated Magnet 1. Insulation layer thickness within 0.04mm. 2. At normal temperature, the bonding strength of the insulation layer can reach more than 50Mpa. 3. The maximum operating temperature can reach 200 ℃. 4. Tolerance is within 0.05mm. 5. Each magnets are insulated from each other.
