Create bushings and other parts that will be exposed to abrasion, harsh chemicals, high heat, and rubbing with these rods. Sintering strengthens the bonds within silicon carbide, leaving it two times stronger than other versions of silicon carbide.

Ideal for applications that must resist bending and wear as well as carry heavy loads, these rods and discs are often used for sleeve bearings and shafts instead of metal.

A steel case concentrates and focuses the magnetic field. It also protects the magnetic material.

Ceramic magnets resist demagnetization better than other magnets and are an economical choice. They resist temperatures up to 140° F.

A rubber cover protects the mounting surface as well as the magnet.

A rubber cover protects the mounting surface as well as the magnet.

To add a magnetic surface anywhere, install the mounting plate, then screw on the magnet.

Rare earth samarium-cobalt offers a balance of strength and temperature resistance.

Nickel plating gives these magnets good corrosion resistance.

In addition to protecting magnets and mounting surfaces, a rubber coating gives these magnets a slip-resistant surface.

Many small poles give these magnets shallower, more concentrated magnetic fields that hold especially well on thin material. They resist temperatures up to 180° F.

Ceramic magnets resist demagnetization better than other magnets and are an economical choice. They resist temperatures up to 400° F.

Alnico magnets aren't as strong as rare earth magnets, but they withstand the highest temperatures—up to 970° F.

Made of neodymium, these rare earth magnets are the strongest for their size. Slide onto a rod or use a bolt or screw to install.