M Cubed Technologies’ SiC-based composites offer a broad range of solutions for harsh process applications.

• Size and shape flexibility – M Cubed Technologies’ advanced forming techniques allows for the manufacture of large, complex shapes with minimal or no machining. Components measuring up to 60” x 60” and weighing 1000 lbs have been produced. Typical products include, but are not limited to, burner nozzles, conical diffusers, coal deflectors, jet mill liners, and burner elbows.
• Infiltration depth – Our reaction-bonding process can fully infiltrate components as thick as 6”, allowing a greater volume of wear material for harsh environments.
• Reduced weight – Silicon Carbide components will be significantly lighter than the carbide, ceramic, or metal parts they will be replacing, making their installation much simpler.

SSC Grade Reaction Bonded Silicon Carbide offers excellent wear, corrosion and high-temperature resistance.

SSC is recommended for applications such as burners, fan liners, and hydrocyclone liners.  Grade SSC-903 is used for applications in which a part can be formed to final net shape.  Grade SSC-702 is used when green machining is required to attain tight tolerances and/or complex features.  SSC grades are recommended for most acidic services, but they are not recommended for use in high pH environments.

HSC Grade Aluminum Toughened SiC offers excellent wear resistance while exhibiting increased fracture toughness.

HSC is recommended for applications at temperatures < 450C.  The material is well suited for applications that see high velocity erosive impingement, such as coal ash handling components.  Grade HSC-903 is used for applications in which a part can be formed to final net shape.  Grade HSC-703 is used when green machining is required to attain tight tolerances and/or complex features.  HSC grades are not recommended for service in corrosive environments.

M Cubed’s engineers have developed multiple new compositions within the reaction-bonded SiC family.  We are constantly working on new applications and new materials.

Flow-through channels– One of these unique, patented specialty materials is a RBSC composite that is engineered to allow the addition of flow-through channels, ideal for critical thermal management and heat-exchanger applications.