INDUSTRIAL CERAMIC SILICON CARBIDE REFRACTORY

Brand Owner (click to sort) Address Description
CESIWID SAINT-GOBAIN CERAMICS & PLASTICS, INC. One New Bond Street Worcester MA 01615 industrial ceramic silicon carbide refractory parts for use as kiln furniture in furnaces and kilns, namely, boats, saggars, crucibles, tubes, nozzles, plates, beams, rods, rollers, and bats;industrial ceramic silicon carbide refractory furnace parts, namely, boats, saggars, crucibles, tubes, nozzles, plates, beams, rods, rollers, and bats;
SILIT SAINT-GOBAIN CERAMICS & PLASTICS, INC. One New Bond Street Worcester MA 01615 industrial ceramic silicon carbide refractory parts for use as kiln furniture in furnaces and kilns, namely, boats, saggars, crucibles, tubes, nozzles, plates, beams, rods, rollers, and bats;industrial ceramic silicon carbide refractory furnace parts, namely, boats, saggars, crucibles, tubes, nozzles, plates, beams, rods, rollers, and bats;
 

Where the owner name is not linked, that owner no longer owns the brand

    
Technical Examples
  1. A method for making aerospace face seal rotors reinforced by rhenium metal, alloy, or composite in combination with silicon carbide or other ceramic. The resulting rotor also is disclosed. Ceramic grains, preferably silicon carbide (SiC), are mixed with powdered metallic (PM) binder that may be based on a refractory metal, preferably rhenium. The mixture is applied to a rotor substrate. The combined ceramic-metal powder mixture is heated to sintering temperature under pressure to enable fusion of the ceramic in the resulting metal-based substrate. A load may then be applied under an elevated temperature. The resulting coated rotor can exhibit high hot hardness, increased durability and/or high hot wear resistance, as well as high thermal conductivity.