Difference between revisions of "Conformal coating"
| Line 1: | Line 1: | ||
==Description== | ==Description== | ||
| − | An uninterrupted coating that assumes the exact form or shape of the object. Most conformal coatings are thin, nonconductive, dielectric layers were originally designed for the protection of electronics and electrical devices from moisture, contamination, chemicals, solvents, fungus, dust and corrosion. Because they are capable providing protection for a wide variety of substrates including metals, polymers, and semiconductors there use has expanded to include medical devices, automotive parts, consumer goods, and even works or art. Many types of polymers have been used for conformal coatings including, [[Acrylic resin|Acrylics]], [[Epoxy|Epoxies]], [[Silicone resin|Silicones]], [[Polyurethane|Polyurethanes]], [[styrene]] and [[parylene]]. One example, Parylene, is apllied via vapor deposited coating while more recent additions, such as [[Nanoproof coating|Nanoproof]] and Vitroguard are available as solution-based coatings that can be dip or spray applied and requires little to no masking. | + | An uninterrupted coating that assumes the exact form or shape of the object. Most conformal coatings are thin, nonconductive, dielectric layers that were originally designed for the protection of electronics and electrical devices from moisture, contamination, chemicals, solvents, fungus, dust and corrosion. Because they are capable providing protection for a wide variety of substrates including metals, polymers, and semiconductors there use has expanded to include medical devices, automotive parts, consumer goods, and even works or art. Many types of polymers have been used for conformal coatings including, [[Acrylic resin|Acrylics]], [[Epoxy|Epoxies]], [[Silicone resin|Silicones]], [[Polyurethane|Polyurethanes]], [[styrene]] and [[parylene]]. One example, Parylene, is apllied via vapor deposited coating while more recent additions, such as [[Nanoproof coating|Nanoproof]] and Vitroguard are available as solution-based coatings that can be dip or spray applied and requires little to no masking. |
== Synonyms and Related Terms == | == Synonyms and Related Terms == | ||
Revision as of 13:11, 8 February 2025
Description
An uninterrupted coating that assumes the exact form or shape of the object. Most conformal coatings are thin, nonconductive, dielectric layers that were originally designed for the protection of electronics and electrical devices from moisture, contamination, chemicals, solvents, fungus, dust and corrosion. Because they are capable providing protection for a wide variety of substrates including metals, polymers, and semiconductors there use has expanded to include medical devices, automotive parts, consumer goods, and even works or art. Many types of polymers have been used for conformal coatings including, Acrylics, Epoxies, Silicones, Polyurethanes, Styrene and Parylene. One example, Parylene, is apllied via vapor deposited coating while more recent additions, such as Nanoproof and Vitroguard are available as solution-based coatings that can be dip or spray applied and requires little to no masking.
Synonyms and Related Terms
Product names: Parylene; Nanoproof; Aculon; Vitroguard; 3M Novec
Applications
- Protection for electronics from water and moisture
Risks
- Wear protective gloves and use fume hood for application
- Aculon is dissolved in a fluorocarbon solvent
- Aculon: SDS
Physical and Chemical Properties
Working Properties
- Applications methods= spray, jet, dip, vapor deposition
Resources and Citations
- Specialty Coating Systems: Conformal Coatings
- Aculon: NanoProof coatings Accessed Feb. 2025