Industrial, Automotive and Commercial Parylene Conformal Coating
Parylene has been the coating of choice for mission critical aviation, aerospace and military applications for decades because of its unique combination of properties. These coating capabilities are equally important for industrial and commercial coating applications. CWST Coating has a record of leadership in Parylene process development and carefully managed coating production across a wide spectrum of manufacturing applications.
Parylene conformal coating film seals surfaces, making them resistant to contaminants, moisture, petro chemicals,corrosives, gases, acids and alkalis. While its barrier properties are unmatched, Parylene adds very minimal mass to coated surfaces and contributes no cure or thermal expansion forces to threaten delicate components. Parylene has exceptional tensile and yield strength, and is used to protect many substrate types from glass and metal to ceramics, plastics and even elastomers.
CWST supplies Parylene raw material in multiple forms, each suited to particular performance requirements. Automated production systems in our coating centers are designed to meet customer needs with maximum vacuum deposition effectiveness and process accuracy. CWST holds multiple patents for innovative, proprietary system designs that enhance production quality as well as efficiency.
Industrial and Commercial Coating Applications
Our unique polymer films and parylene dinmers can be used virtually anywhere. Just some of the applications we have made with our Parylene film include:
Elastomers, O-Rings, Seals
Silicone Keypads and other Molded Components
Ferrite Components
Magnets
Automated Controls
Electronic Circuit Assemblies
Delicate Sensors
Molded Components
Coil Forms
Connectors
Key Parylene Properties
High dielectric strength
Pinhole-free coverage
Absolute conformability across planar surfaces, in crevices and around edges
Resistant to organic and inorganic chemicals
Closely controllabe film thickness
Dry film lubricity
No cure cycle, no cure forces or thermal stresses
Fully effective under widely varying environmental conditions