Neodymium Disc Magnet - 25.4mm x 3.175mm | N52

Product code: D-D25.4H3.175-N52-Ni

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Neodymium Disc Magnet - 25.4mm x 3.175mm | N52

Product Code D-D25.4H3.175-N52-Ni
Pull Force* 7.039 kg
Weight 80 gm
Style Neodymium DISC
Gauss 1795
Grade N52
Coating Nickel
Direction of Magnetisation Axially through height
Dimensions Height:3.17mm, Diameter:25.4mm
*Measured against up to 10mm mild steel.
Neodymium Disc Magnet - 25.4mm x 3.175mm | N52

Magnetic Product Description:

This neodymium magnetic disc has a diameter of 25.4mm and a height of 3.17mm. It has a magnetic flux reading of 1795  Gauss and a pull force of 7 kilos. It is identified by the AMF magnet part number D-D25.4H3.175-N52-Ni .


Uses for our rare earth disc magnets:

The North and South magnetic poles of this powerful N52 grade Rare Earth disc magnet appear on the two opposing flat circular surfaces. Either of the poles will attach to a metal surface however they respond to another magnet by either attracting or repelling it depending on the pole presented.
The magnetic field produced by Neodymium material is superior in strength to all other permanent magnets and although they are often smaller in dimensions they can provide a stronger magnetic attachment.
Round disc magnets are particularly well suited to applications that make good use of their thinner profile. Confined spaces are no bother when you have a thin and wide magnet that can easily be slotted into position.
Round and flat magnets are easily concealed beneath the external surface of a product or inserted inside the lining of a textile or garment. By using two Rare Earth magnets, customers can create a magnetic bond between two materials that are not themselves metallic or magnetic. Simply glue the magnets to each surface with the opposing poles exposed, forming a bond that is both permanent and removable. Magnets have in many cases replaced the need for old fashioned fixtures such as screws, nails or clasps.

Neodymium Disc Magnet - 25.4mm x 3.175mm | N52 (D-D25.4H3.175-N52-Ni)

Grade
N52 N/A
Max Operating Temperature °C
<=80 N/A
Remanence Br(T)
1.43-1.8 N/A
Remanence Br(kGs)
14.3-14.8 N/A
Coercivity bHc(kA/m)
>=876 N/A
Coercivity bHc(Oe)
>=11 N/A
Intrinsic Coercivity iHc(kA/m)
>=960 N/A
Intrinsic Coercivity iHc(Oe)
>=12 N/A
Max Energy Product(BH)max(KJ/m)
390-422 N/A
Max Energy Product(BH)max(MGOe)
49-53 N/A
Grade N52 N/A
Max Operating Temperature °C <=80 N/A
Remanence Br(T) 1.43-1.8 N/A
Remanence Br(kGs) 14.3-14.8 N/A
Coercivity bHc(kA/m) >=876 N/A
Coercivity bHc(Oe) >=11 N/A
Intrinsic Coercivity iHc(kA/m) >=960 N/A
Intrinsic Coercivity iHc(Oe) >=12 N/A
Max Energy Product(BH)max(KJ/m) 390-422 N/A
Max Energy Product(BH)max(MGOe) 49-53 N/A
Neodymium Disc Magnet - 25.4mm x 3.175mm | N52

Magnetic Product Description:

This neodymium magnetic disc has a diameter of 25.4mm and a height of 3.17mm. It has a magnetic flux reading of 1795  Gauss and a pull force of 7 kilos. It is identified by the AMF magnet part number D-D25.4H3.175-N52-Ni .


Uses for our rare earth disc magnets:

The North and South magnetic poles of this powerful N52 grade Rare Earth disc magnet appear on the two opposing flat circular surfaces. Either of the poles will attach to a metal surface however they respond to another magnet by either attracting or repelling it depending on the pole presented.
The magnetic field produced by Neodymium material is superior in strength to all other permanent magnets and although they are often smaller in dimensions they can provide a stronger magnetic attachment.
Round disc magnets are particularly well suited to applications that make good use of their thinner profile. Confined spaces are no bother when you have a thin and wide magnet that can easily be slotted into position.
Round and flat magnets are easily concealed beneath the external surface of a product or inserted inside the lining of a textile or garment. By using two Rare Earth magnets, customers can create a magnetic bond between two materials that are not themselves metallic or magnetic. Simply glue the magnets to each surface with the opposing poles exposed, forming a bond that is both permanent and removable. Magnets have in many cases replaced the need for old fashioned fixtures such as screws, nails or clasps.

Neodymium Disc Magnet - 25.4mm x 3.175mm | N52 (D-D25.4H3.175-N52-Ni)

Grade
N52 N/A
Max Operating Temperature °C
<=80 N/A
Remanence Br(T)
1.43-1.8 N/A
Remanence Br(kGs)
14.3-14.8 N/A
Coercivity bHc(kA/m)
>=876 N/A
Coercivity bHc(Oe)
>=11 N/A
Intrinsic Coercivity iHc(kA/m)
>=960 N/A
Intrinsic Coercivity iHc(Oe)
>=12 N/A
Max Energy Product(BH)max(KJ/m)
390-422 N/A
Max Energy Product(BH)max(MGOe)
49-53 N/A
Grade N52 N/A
Max Operating Temperature °C <=80 N/A
Remanence Br(T) 1.43-1.8 N/A
Remanence Br(kGs) 14.3-14.8 N/A
Coercivity bHc(kA/m) >=876 N/A
Coercivity bHc(Oe) >=11 N/A
Intrinsic Coercivity iHc(kA/m) >=960 N/A
Intrinsic Coercivity iHc(Oe) >=12 N/A
Max Energy Product(BH)max(KJ/m) 390-422 N/A
Max Energy Product(BH)max(MGOe) 49-53 N/A