- Home
- /
- Magnet Materials & Standard Assemblies
- /
- 19 x 13 x 6mm thick N42 Neodymium Magnet - 7.2kg Pull
19 x 13 x 6mm thick N42 Neodymium Magnet - 7.2kg Pull
Strong and compact, these high-performance rectangular Neodymium (N42) magnets are ideal for when high performance is needed with limited space.
Please fill out the following form to Ask a Question about this product:
Please fill out the following form to Tell a Friend about this product:
- 19mm x 13mm x 6mm.
- +/-0.1mm tolerance.
- N42 Neodymium Magnet.
- Each magnet can support a steel weight of up to 5.4kg vertically from the magnetic face when in flush contact with a mild steel surface.
- Excellent resistance to demagnetisation.
- Coated with three layers of nickel, copper and nickel to reduce corrosion and provide a smooth finish.
Every magnet has a triple coating of nickel, copper and nickel again to prevent against corrosion. Our Neodymium magnets are commonly used in creative applications such as models and theatre design, furniture making, exhibition stands and packaging. They also have many uses in engineering and manufacturing where small size and maximum strength are required. What's more, because of their resistance to demagnetisation they are ideal for creating a shock-absorbing or damping effect when used to repel other magnets.
- 19mm x 13mm x 6mm.
- +/-0.1mm tolerance.
- N42 Neodymium Magnet.
- Each magnet can support a steel weight of up to 5.4kg vertically from the magnetic face when in flush contact with a mild steel surface.
- Excellent resistance to demagnetisation.
- Coated with three layers of nickel, copper and nickel to reduce corrosion and provide a smooth finish.
Every magnet has a triple coating of nickel, copper and nickel again to prevent against corrosion. Our Neodymium magnets are commonly used in creative applications such as models and theatre design, furniture making, exhibition stands and packaging. They also have many uses in engineering and manufacturing where small size and maximum strength are required. What's more, because of their resistance to demagnetisation they are ideal for creating a shock-absorbing or damping effect when used to repel other magnets.
You May Also Like