Physical vapor deposition (PVD) describes a variety of vacuum deposition methods which can be used to produce thin films. PVD uses physical process (such as heating, arc or sputtering) to produce a vapor of material, which is then deposited on the object which requires coating.
Thickness of coating
The coating formation consists of three main phase
Electric arc on a coatingtarget
Benefits of PVD Coating
PVD coating further hardens the surface, reduces friction and improves durability of objects, making it more resistant to wear and tear.
PVD Coating offers a layer of protection for object, making it corrosion resistant and more durable on erosion during process uses.
Ability to withstand high operating temperatures without degradation.
Compares to peer process such as hard chroming or CVD (Chemical Vapor Deposition), PVD process poses the most minimal environmental impact, with no wastewater management requires and very minimal waste emission.
All other benefits contributes to two ultimate goal, to improve end product quality and also provide cost savings measures for fellow manufacturers on their tooling, further reducing production downtime and maintenance costs.
Services We Provide
Quality Assurance/Control
We ensure top quality coatings for maximum performance.
Cleaning/Degassing
Thorough cleaning and degassing for optimal coating adhesion.
Coating Process
Application of PVD coatings for enhanced performance.
Post Treatment
Finishing touches to optimize coating durability and functionality.