Variants and composition: Kovamuovit encompasses multiple grades, some designed for high-temperature performance, others for chemical resistance or wear resistance. Reinforced forms with glass or carbon fibers offer enhanced stiffness and strength. Additives such as stabilizers, lubricants, and impact modifiers are used to tailor processing behavior and end-use performance.
Properties: Kovamuovit resins commonly exhibit high dimensional stability, moderate to high tensile strength, and improved creep resistance relative to standard plastics. Thermal properties vary by grade, with glass transition temperatures typically in the range suitable for demanding environments. Electrical insulation is a feature of many grades. Chemical resistance is grade-dependent, making some formulations suitable for contact with aggressive solvents or fuels.
Processing and production: Synthesis generally involves controlled polymerization of selected monomers followed by formulation with reinforcing agents or additives. Processing methods include melt extrusion, injection molding, film casting, and additive manufacturing. Recyclability is supported by mechanical reprocessing; certain variants are being developed for more advanced chemical recycling.
Applications: Kovamuovit is used in automotive components, aerospace interiors, electrical housings, and industrial equipment where structural integrity and environmental resistance are required. It also serves in consumer electronics casings and durable consumer goods manufactured under demanding specifications.