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Product code: D-D4H3.5-N45
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With a pull force of 0.5260kg, this nickel-coated disc magnet is 3.5mm in height and 4mm in diameter. Gauss526, GradeN45, with a direction of magnetisation through height.
Rare Earth Neodymium disc magnets are the workhorses of the magnet world, providing strong pull force despite their relatively diminutive size. This magnet has countless useful applications in automotive, electronic, fashion, craft and modelling applications. Its nickel coating makes it sleek and unobtrusive, perfect for any application where a larger magnet would detract from the overall finish. Its uses are limited only by your imagination and it is your go-to magnet wherever you need the strength of a permanent magnet, with a smooth, sleek profile. The dimensions of this slender, circular Neodymium magnet make it suitable for a huge range of applications where it can be used to bond materials together or suspend metal objects efficiently and reliably.
With a pull force of 0.5260kg, this nickel-coated disc magnet is 3.5mm in height and 4mm in diameter. Gauss526, GradeN45, with a direction of magnetisation through height.
Rare Earth Neodymium disc magnets are the workhorses of the magnet world, providing strong pull force despite their relatively diminutive size. This magnet has countless useful applications in automotive, electronic, fashion, craft and modelling applications. Its nickel coating makes it sleek and unobtrusive, perfect for any application where a larger magnet would detract from the overall finish. Its uses are limited only by your imagination and it is your go-to magnet wherever you need the strength of a permanent magnet, with a smooth, sleek profile. The dimensions of this slender, circular Neodymium magnet make it suitable for a huge range of applications where it can be used to bond materials together or suspend metal objects efficiently and reliably.
The Pull Force listed for each magnet is based on lifting 10mm thick steel vertically. Magnets on a vertical surface (of 10mm thick steel) are generally able to hold around 30% of the pull force listed due to the effects of gravity and the lack of traction between the surface and the shiny magnet.