Diamond Like Carbon Coating Gun

Diamond like carbon dlc coatings are a particular area of expertise for richter precision inc.

Diamond like carbon coating gun. Among pvd pacvd coating compositions and technology dlc coatings stand out as a distinctive category. All seven contain significant amounts of sp 3 hybridized carbon atoms. These coatings exhibit a desirable combination of a low coefficient of friction and high micro hardness. Dlc exists in seven different forms.

Dlc coating stands for diamond like carbon coating and is a nanocomposite coating that has unique properties of natural diamond low friction high hardness and high corrosion resistance. Diamond like carbon dlc is a class of amorphous carbon material that displays some of the typical properties of diamond dlc is usually applied as coatings to other materials that could benefit from some of those properties. Early investigations of dlc coatings were plagued with problems such as decohesion and high compressive stress. Contact us at 303 652 8500 to learn more.

Calico diamond like carbon dlc is a dense metastable form of hydrogenated amorphous carbon a c h containing significant sp3 bonding. This hard layer is applied through either a physical or plasma enhanced chemical vapor deposition process referred to as pvd and pe cvd respectively. All vaportech pvd coating equipment can be configured to apply both metal based pvd finishes as well as diamond like carbon coatings. Armorlube is a next generation diamond like carbon firearm coating that makes traditional wet lubricants obsolete and increases weapon performance reliability and durability in the most challenging conditions.

Common vt diamond applications include machine tooling engine components aviation cutting tools medical devices watches and other high value consumer products. The reason that there are different types is that even diamond. 6 5 2 diamond like carbon thin films. To overcome the issue of coating delamination the use of interlayers such as silicon based materials was investigated to improve adhesion between dlc and metallic substrates bonetti et al 2006.