Skip to content
FREE SHIPPING On Orders Over $50
CONTACT US Talk To An Expert
SAME DAY DISPATCH Before 11:30am ET
7,500+ REVIEWS 99% Recommended
Basket
Basket Oh No! Your basket is empty
Contact Us

Please fill out the following form to contact us:

N42 Neodymium Cube Magnet - 15/32 in. x 15/32 in. x 15/32 in. thick - 16.31lbs Pull
N42 Neodymium Cube Magnet - 15/32 in. x 15/32 in. x 15/32 in. thick - 16.31lbs Pull
N42 Neodymium Cube Magnet - 15/32 in. x 15/32 in. x 15/32 in. thick - 16.31lbs PullN42 Neodymium Cube Magnet - 15/32 in. x 15/32 in. x 15/32 in. thick - 16.31lbs Pull

N42 Neodymium Cube Magnet - 15/32 in. x 15/32 in. x 15/32 in. thick - 16.31lbs Pull

Code: F12CU-4

*Measurements have been rounded to the nearest fraction inch - please check the product description for specific measurements.*

Strong and versatile Neodymium (N42) cube magnets, great for when high performance is needed with limited space.

Choose Pack Size:
$15.78
In Stock
Load Swiper
next day
NEXT DAY DELIVERY
available to the uk
standard
STANDARD DELIVERY
From £2.25 + VAT.
100% secure
100% SECURE
Online ordering.
Ask A Question

Please fill out the following form to Ask a Question about this product:

Email A Friend

Please fill out the following form to Tell a Friend about this product:

  • 12mm x 12mm x 12mm cube.
  • 0.47 in. x 0.47 in. x 0.47 in. cube.
  • +/-0.1mm (0.0004 in.) tolerance.
  • Each magnet has north and south poles on opposing faces.
  • Each magnet can support a steel weight of up to 7.4kg (16.32lbs) vertically from the magnetic face when in flush contact with a mild steel surface of equal thickness.
  • Each magnet is coated with three layers of nickel, copper and nickel to improve corrosion resistance and provide a smooth and clean finish.

12cm3 neodymium magnets, although small provided a strong magnetic pull at an affordable price. Their shape and size means they are very versatile; they are used in many applications including model making, crafts, packaging and manufacturing.

mgctlbxN$MZP mgctlbxV$5.3.7 mgctlbxL$C