These Neodymium magnets are 6mm in diameter and 1mm in height, weigh 10 grams and have a pull force of 0.3440kg. They are nickel-coated, Gauss2292, GradeN50 and their direction of magnetisation is through height.

The range of applications for these mighty Neodymium magnets is astonishingly broad. Advertising may not be an area where you would see Rare Earth disc magnets as being part of the whole, but there they are, holding their own. Because they have a high magnetic power to weight ratio produced by Neodymium, they are sought after for any product design requiring magnets in their application. Think of advertising, retail and commercial displays, art and hobbies, model-making and DIY, even applications such as non-mechanical closure systems for binders, albums and document holders. Who’s there, providing that magnetic strength and reliability? Neodymium disc magnets. Their low profile and chic nickel-coating makes them extremely versatile, because they can be more easily incorporated into modern slimline products. It’s the disc shape that adds to their appeal - they have wide pole surfaces that attach to metal surfaces securely and are not easily dislodged.

Bonds and attachment points created with the use of these thin, yet powerful Neodymium magnets can be more effective and much more practical than the invasive traditional methods of attachment that often involve nails, pins or mechanical latches. Two magnets, or a magnet and a metal striker on each side of an opening can attract each other in an intuitive way that creates a seamless bond or even an airtight seal. These small rare-earth magnets have immense strength for their size which allows them to be used discreetly on high quality manufactured products or to improve the appearance of delicate personal items in an unobtrusive way. Epoxy glue can be used to hold them in position on hard surfaces or in other cases they can easily slide beneath the surface of another material which can include soft plastic surfaces or fabrics. The super-strong Neodymium magnets have permanent holding power that requires nothing more than a small amount of physical force for the bond to be disengaged. Permanent magnetic energy generated by the Neodymium material inside the magnet allows it to perform reliably over long and indefinite periods.