Neodymium Disc - 5 mm x 2 mm | N Pole Marked

Product code: 20079E

$0.37for 1 to 99 items
$0.30buy 100 to 999 itemsand save 19%
$0.26buy 1000+ itemsand save 29%

Neodymium Disc - 5 mm x 2 mm | N Pole Marked

Product Code 20079E
Pull Force* .430 kg
Weight 1gm
Style Neodymium Disc
Gauss 3935
Grade N38
Coating Nickel (NiCuNi)
Direction of Magnetisation Axially magnetized
Dimensions Height:2mm, Diameter:5mm

Product Description:

This rare earth disc magnet measures 5 mm (D) x 2 mm (H). It has a magnetic flux reading of 3935 Gauss and a pull force of 430 grams.

Uses for our rare earth disc magnets:

Companies making partitions and walls for work spaces often favor vitreous enamel magnetic low sheen whiteboard on one side, sound absorbing pin board felt on the other. For arranging ideas or images on a work wall, these neodymium disc magnets are an absolute necessity!

NB: Ranges are indicative for product category, please check individual products for specic values within that range.

The most common coating for Neodymium magnets is Nickel + Copper + Nickel (Ni + Cu + Ni). This coating offers the magnet relatively good protection from corrosion and passive applications. If the magnet will be exposed to moisture or liquid then consider the use of an organic coating such as Epoxy. A hard wearing coating, Epoxy is suited to applications where the magnet will come under some friction or knocking.

Magnets are readily available in Blocks, Discs, Cylinders & Rings. AMF Magnetics specializes in the supply of short-run prototype magnets including Arc Segments, various magnetic orientations etc. If you need a magnet size that we don't carry in stock, submit a Design-a-Magnet enquiry for a quote on your custom magnet design.

Neodymium magnets are offered in several different grades. The first section N30-54 has an operating temperature of up to 80 degrees. Most of our stock only goes up to N38. The second section, denoted with the "M" prefix after the grade has an operating temperature 100 degrees. After this the grades are "H", "SH", "UH" & "EH". In order for the magnet to withstand a higher operating temperature, during production more of the raw material PrNd is incorporated as these elements have a naturally occurring resistance to high temperatures.

Product Description:

This rare earth disc magnet measures 5 mm (D) x 2 mm (H). It has a magnetic flux reading of 3935 Gauss and a pull force of 430 grams.

Uses for our rare earth disc magnets:

Companies making partitions and walls for work spaces often favor vitreous enamel magnetic low sheen whiteboard on one side, sound absorbing pin board felt on the other. For arranging ideas or images on a work wall, these neodymium disc magnets are an absolute necessity!

NB: Ranges are indicative for product category, please check individual products for specic values within that range.

The most common coating for Neodymium magnets is Nickel + Copper + Nickel (Ni + Cu + Ni). This coating offers the magnet relatively good protection from corrosion and passive applications. If the magnet will be exposed to moisture or liquid then consider the use of an organic coating such as Epoxy. A hard wearing coating, Epoxy is suited to applications where the magnet will come under some friction or knocking.

Magnets are readily available in Blocks, Discs, Cylinders & Rings. AMF Magnetics specializes in the supply of short-run prototype magnets including Arc Segments, various magnetic orientations etc. If you need a magnet size that we don't carry in stock, submit a Design-a-Magnet enquiry for a quote on your custom magnet design.

Neodymium magnets are offered in several different grades. The first section N30-54 has an operating temperature of up to 80 degrees. Most of our stock only goes up to N38. The second section, denoted with the "M" prefix after the grade has an operating temperature 100 degrees. After this the grades are "H", "SH", "UH" & "EH". In order for the magnet to withstand a higher operating temperature, during production more of the raw material PrNd is incorporated as these elements have a naturally occurring resistance to high temperatures.