These shafts include a support rail for a stable setup that eliminates bending and prevents linear bearings from rotating.

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.

Over 99% pure, these rods have the strength of silicon carbide throughout, so they resist deforming under heavy loads at high temperatures (known as creep). They’re often used as supports in kilns.

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.

Protectively sheath materials, such as thermocouples, that move between hot and cold environments. Similar to nonporous alumina tubes, air and gas cannot pass through these mullite tubes.

To resist deforming, expanding, or cracking when compressed, bent, or exposed to quick temperature changes, these silicon-nitride ceramic discs have been pressed into ultra-dense discs. They’re just as strong and fracture resistant as zirconia ceramic, and hold their strength and shape at higher temperatures.

Often used as a protective shield in thermocouples and other conditions with drastic climate changes, these SiAlON ceramic tubes won't deform, expand, or crack when repeatedly exposed to large temperature changes.

Machine complicated shapes and precision parts from these glass-mica ceramic bars in a fraction of the time it would take using other types of fired ceramic.

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

These ceramic magnets resist demagnetization better than other magnets, and have a metal case to protect the magnetic material. They resist temperatures up to 175° or 245° F.

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

A case protects the magnetic material.