The most common of our flexible high-temperature sheets, these are used to insulate furnaces.

Alumina silicate is loosely woven to create these ceramic seals that are stronger and more flexible than Ultra High- and Low-Temperature Rope Seals. They can handle temperatures from –300° to 2300° F.

Often used as wire insulation.

Often used to create prototype components, these ceramic rods and discs come semi-fired so they can be machined using conventional metalworking tools.

Often used as kiln shelves and refractory bricks, you can repeatedly move these mullite ceramic sheets between very hot and cold environments without deforming or cracking.

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.

Often used instead of metal in bearings and rollers, these balls are ideal for applications where strength under heavy loads and wear resistance is needed.

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.

Sintering creates strong inner bonds, making this version of silicon carbide more resistant to wear and chemicals than other forms of silicon carbide as well as most ceramics.

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.

Machine these rods into nozzles for acids, pins or supports for kilns, and other parts that require extreme hardness when exposed to quick temperature changes and chemicals. This nitride-bonded silicon carbide is better at transferring heat than most ceramics and expands without cracking when temperatures fluctuate.

Extremely hard with excellent corrosion resistance, this silicon-carbide ceramic is often used for rubbing parts such as bearings and bushings in chemicalprocessing environments.

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.

Made of nearly pure silicon carbide, these sheets resist creep more than other ceramics and are consistently strong throughout, so they won’t sag under heavy loads at high temperatures. Because they withstand extreme temperatures, they’re often used as kiln furniture and machined into structural furnace components.

Turn and drill intricate components such as heat sinks, fixture parts, and other electronics parts where thermal stability is important.

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

Also known as Macor, these glass-mica ceramic rods withstand temperatures up to 1470° F.