NdFeB Rare Earth Permanent Magnet Disc Ø30 x 5mm N50 Feature:
Material Neodymium
Plating Nickel (Ni-Cu-Ni)
Diameter D 30 mm
Volum 3534 mm³
Temperature max. 80 °C
Magnetic Grade N50
Tolerance 0.1 mm
Direction axial
Weight 0,026858 kg
Pull Power Force 10,500 kg
Hight H 5 mm
Material Neodymium
Plating Nickel (Ni-Cu-Ni)
Diameter D 30 mm
Volum 3534 mm³
Temperature max. 80 °C
Magnetic Grade N50
Tolerance 0.1 mm
Direction axial
Weight 0,026858 kg
Pull Power Force 10,500 kg
Hight H 5 mm
Neodymium magnets (Nd-Fe-B) are composed of neodymium, iron, boron and a few transition metals. These magnets are extremely strong for their small size, metallic in appearance and found in simple shapes such as rings, blocks and discs. Not sure if Neodymium is the best material for your application? Click here for an attribute and application comparison for all of the magnetic materials we offer.
Choose from one of the following shapes:
Blocks Icon
Neodymium Block Magnets
Discs Icon
Neodymium Disc Magnets
Discs with Adhesive Icon
Neodymium Disc Magnets with Adhesive
Rings Icon
Neodymium Ring Magnets
Spheres Icon
Neodymium Sphere Magnets
Choose from one of the following shapes:
Blocks Icon
Neodymium Block Magnets
Discs Icon
Neodymium Disc Magnets
Discs with Adhesive Icon
Neodymium Disc Magnets with Adhesive
Rings Icon
Neodymium Ring Magnets
Spheres Icon
Neodymium Sphere Magnets
WHICH MATERIAL ?
Several characteristics have to be taken into consideration when deciding which permanent magnetic material to use. These are: –
Flux requirement for the particular application.
Maximum operating temperature.
Cost.
Availability.
Degree of corrosion likely to be encountered.
Magnetic stability required.
Size and/or weight limitations.
Although there are many different types of permanent magnet material the following information considers only the four major types in use today. These are Alnico, Ferrite, Samarium Cobalt (SmCo) and Neodymium-Iron Boron (NdFeB). The individual grades within each type will be considered separately.
Several characteristics have to be taken into consideration when deciding which permanent magnetic material to use. These are: –
Flux requirement for the particular application.
Maximum operating temperature.
Cost.
Availability.
Degree of corrosion likely to be encountered.
Magnetic stability required.
Size and/or weight limitations.
Although there are many different types of permanent magnet material the following information considers only the four major types in use today. These are Alnico, Ferrite, Samarium Cobalt (SmCo) and Neodymium-Iron Boron (NdFeB). The individual grades within each type will be considered separately.
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