Vacuum Coating Systems
For many years the professional experience of the company's employees have produced and delivered in a number of countries vacuum coaters for monolayer coatings - vacuum metallization of Ti, Cr, Cu, Zn, Al, Ni ... with or without the use of lacquer, as well as vacuum deposition equipment and vacuum coating of multilayer films TiCN, AlCrN, ZnN, CrN, AlTiN, TiN...
In the vacuum deposition systems used devices analysis of plasma, ion sources, unbalanced magnetrons, vacuum arc sources with pulsed power supplies, which can significantly extend the range of vacuum coatings and improve their properties, namely:
- Reduced porosity, increased adhesion in vacuum metallization.
- Increasing the density and adhesion during vacuum deposition of carbides, carbonitrides, nitrides.
- Increased adhesion and reduced absorption in oxides TiO2, Cr2O3, Al2O3...
- Increases adhesion and density of the coating by vacuum deposition of sulfides, fluorides.
Vacuum coating occurs in both manual and automatic operation using a personal computer.
The company "Technology & Supply" develops, manufactures following vacuum coaters:
The company "Technology & Supply" develops, manufactures and supplies the following vacuum deposition systems.
Based on many years of experience of research and development works, as well as experience in manufacturing vacuum systems and the introduction of technology in of hardening industrial practice is the most appropriate use of the vacuum system with wide technological capabilities.
Vacuum coating system allows applying protective-decorative, hardening coatings on small-sized instruments, dentures, crowns and obtaining surfaces of various colors. The vacuum coating machine can operate in manual, semi-automatic and automatic modes. It is controlled from a personal computer based on Siemens and Advantech controllers.
Vacuum system is intended for deposition DLC coatings (PVD coating process) and deposition vacuum coatings difficult phase composition on the basis of refractory materials including for products with a low annealing temperature. Vacuum system can be operated in manual, semi-automatic and automatic operation on the set program.
Based on many years of experience of research and development works, as well as experience in manufacturing vacuum systems and the introduction of technology in of hardening industrial practice is the most appropriate use of the vacuum system with wide technological capabilities.
Vacuum system deposit optical coatings various functional purposes: clarifying, reflecting, interference, polarizing, conductive, protective, light-absorbing and other coatings.
In-line coater is intended for the deposition of a wide range of coatings (protective, decorative, hardening, and optical) combined methods in automatic mode.
For the right choice of vacuum deposition coating, please inform:
- Dimensions of processed products (it is desirable to send us a drawing, sketch or photos of products).
- What material are the products made from?
- What result do you need from the vacuum deposition process: what color, film thickness, hardness, vacuum coating characteristics, etc.?
- How many products must be coating in one shift, how many shifts and their duration?
The company "Technology & Supply" offers components for vacuum coating machines: vacuum chambers, vacuum arc sources, magnetron sputtering systems, ion sources, etc..
As the that lately by different companies produced a large amount of equipment, the company "Technology & Supply" offers services for the repair, at the direction of technological change, referring to the transition from one method to the other, to a significant improvement of vacuum coating equipment.
With the use of plasma ion source, allowing the coating deposited in a wide range of colors at lower temperatures for various materials.
With the use of ion, ion-plasma sources of low and medium energy, allowing to obtain coatings with high physical-mechanical and chemical properties.
With the use of ion, ion-plasma and molecular beams with the possibility of produce coatings of high strength group.
With the use of ion-plasma sources, allowing to obtain a high coating hardness and low friction coefficient.