The Extraordinary Properties of Tungsten Carbide

       

Heat Resistance - High resistance to deformation and deflection is very valuable in those many applications where a combination of minimum deflection and good ultimate strength merits first consideration. These include spindles for precision grinding and rolls for strip or sheet metal.

Corrosion-Wear Resistance - Specific grades are available with corrosion resistance approaching that of noble metals. Conventional grades have sufficient resistance to corrosion-wear conditions for many applications.

Coefficient of Friction - TC compositions exhibit low dry coefficient of friction values as compared to steels.- Galling - TC compositions have exceptional resistance to galling and welding at the surface.

Heat and oxidation resistance - Tungsten-base carbides perform well up to about 1000°F in oxidizing atmospheres and to 1500°F in non-oxidizing atmospheres

Impact Resistant - For such a hard material with very high rigidity, the impact resistance is high. It is in the range of hardened tool steels of lower hardness and compressive strength.

Low temperature resistance (cryogenic properties) - TC retains toughness and impact strength in the cryogenic temperature ranges. (-453°F.)

Strength - TC carbide has very high strength for a material so hard and rigid. Compressive strength is higher than virtually all melted and cast or forged metals and alloys.

Tolerances - Many surfaces of even complete parts can be used the way they come from the furnace, "as sintered", such as mining or drilling compacts. In those parts requiring precision ground accuracy, such as stamping dies, close-tolerance preforms are provided for grinding or EDM.

Surface Finishes - Finish of an as-sintered part will be about 50 microinches. Surface, cylindrical, or internal grinding with diamond wheel will produce 18 microinches or better and can produce as low as 4 to 8 microinches. Diamond lapping and honing can produce 2 microinches and with polishing as low as 1/2 microinch.

Methods of Fastening - TC can be fastened to other materials by any of three methods; brazing, epoxy cementing, or mechanical means. Its low thermal expansion rate must be carefully considered when preforms are provided for grinding or EDM.

Wear-Resistance - TC wears up to 100 times longer than steel in conditions including abrasion, erosion and galling. Its wear resistance is better than that of wear-resistance tool steels.

Dimensional Stability - TC undergoes no phase changes during heating and cooling and retains its stability indefinitely. No heat treating is required.

Rigidity - Compositions range from two to three times as rigid as steel and four to six times as rigid as cast iron and brass. Young's Modulus is up to 94,800,000 psi.

Thermal Conductivity - TC is in the range of twice that of tool steel and carbon steel.

Electrical Conductivity - Tungsten carbide is in the same range as tool steel and carbon steel.

Specified Heat - TC ranges from about 50% to 70% as high as carbon steel.

Weight - The specific gravity is from 1-1/2 to 2 times that of carbon steel.

Hot Hardness - When temperature increase to 1400°F, tungsten carbide retains much of its room temperature hardness. At 1400°F, some grades equal the hardness of steels at room temperature.