Stick with this company
Easy to order, came very quickly and very well wrapped. Very good range and price. Will use again
Product code: 22006F
Prices are GST Incl.
Volume pricing available on requestAustralia's Leading Supplier
Shipping Worldwide*
30 Day Returns
Same Day Dispatch*
This rectangular block magnet has a length of 43mm, width of 29mm and a height of 11mm. It has a magnetic flux of 3138 Gauss and a pull force of 27.8 kg against 5mm mild steel. It uses the AMF magnetic part number 22006F for identification purposes.
This large Neodymium block magnet is perfect as a general purpose magnet. A powerful pull force travels between the North and South polarities which present as the two largest surfaces. This is an incredibly versatile magnet due to its strength and shape and is a common component in many industrial applications. The strongest permanent magnets are Rare Earth Neodymium magnets and they are the ideal magnet if you require maximum magnetic strength in the smallest possible dimensions.
No FAQ available
This rectangular block magnet has a length of 43mm, width of 29mm and a height of 11mm. It has a magnetic flux of 3138 Gauss and a pull force of 27.8 kg against 5mm mild steel. It uses the AMF magnetic part number 22006F for identification purposes.
This large Neodymium block magnet is perfect as a general purpose magnet. A powerful pull force travels between the North and South polarities which present as the two largest surfaces. This is an incredibly versatile magnet due to its strength and shape and is a common component in many industrial applications. The strongest permanent magnets are Rare Earth Neodymium magnets and they are the ideal magnet if you require maximum magnetic strength in the smallest possible dimensions.
No FAQ available
The Pull Force listed for each magnet is based on lifting 10mm thick steel from a horizontal surface. Magnets on a vertical surface (of 10mm thick steel) are generally able to hold around only 30% of the pull force listed in the product description. This is due to the effects of gravity and the lack of friction between the surface and the shiny magnet. Read More