Heat Dissipation
When applied to surfaces, the heat dissipation coatings transfer heat away from a substrate, resulting in improved efficiencies, performance and longevity of the coated parts. This ceramic bonded, thermal-conductive coating also helps to prevent corrosion and damage related to chemical and solvent attack. Artic Black and Transfer Black coating systems are used extensively in the transportation and electronics industries to reduce residual heat from components.
Micro Slick
Micro Slick's formulation prevents surface-to-surface contact, thus reducing friction and wear between mating surfaces. The exceptional low resistant to shear enables the Micro Slick coated surface to operate with extremely low friction. Micro Slick is available in both air cure and oven cure systems.
Dry Film Lubricants
Dry film lubricants coatings are designed to create a permanent lubricated surface to impede galling and the seizing of components. Like or dissimilar materials can benefit from the application of these materials. The suggested application processes allow the coating to become an intrinsic part of the component rather than a coating on the surface.
Thermal Barriers
CerakoteTM Thermal Barrier products significantly reduce heat transfer of components that operate at elevated temperatures. These coatings are used extensively in the automotive, commercial truck, heavy equipment and performance racing industries. Thermal barrier products increase performance, reduce maintenance cost and protect against corrosion .
High Temp
CerakoteTM High Temperature Coatings are designed to improve the performance of exhaust systems. These coatings prevent corrosion, increase durability and provide thermal insulation. CerakoteTM exhaust coatings are available in a variety of colors and finishes ranging from semi-gloss Black Velvet to high gloss Stoplight Red. A line of Satin Metallic finishes are also available. All of these products can withstand temperatures in excess of 1200°F and select coatings can withstand temperatures higher than 1600°F.