Application of pyrolytic chromium carbide coatings
(Pyrolyic Chromium Carbide Coating - PCCC)
Production and sale of technological lines for applying pyrolytic chromium carbide coatings to products made of metal, glass, ceramics and other materials capable of withstanding heating up to 450 °C for the automotive, oil, space, metallurgy, mining, microelectronics, medical and nuclear industries.
Technology for applying pyroitic chromium carbide coatings with significantly higher physical and mechanical characteristics at a cost of application lower than analogues, obtained due to:
- low energy consumption;
- simpler technology compared to analogues, which allows to reduce capital and operating costs.
The technology allows to obtain a uniform coating from 5 microns to 50 microns.
Advantages of chromium carbide coating technology
(Pyrolyic Chromium Carbide Coating - PCCC) :
Low capital and operating costs.
The cost of applying the coating is lower than existing technologies. Cost
Low energy consumption – depending on the reactor 2-5 kW*h
Absence of contaminated wastewater, treatment systems, regeneration units, consumable related materials (adsorbents, filters, etc.).
High application speed – 0.4 µm/min
In addition to metal, the coating can be applied to glass and ceramics.
Competitive cost of covering 1 cm2
Pyrolytic chromium carbide coatings are 3-4 times more resistant to abrasion and corrosion than hard galvanic chromium coatings at comparable cost.
Comparative microhardness, compared to analogues (pyrolytic chromium - PCCC)
Application areas of pyrolytic chromium carbide coatings:
1. Automotive industry (application of coatings on piston rings – compression, oil scraper)
2. Power engineering – rubbing machine parts, components subject to corrosion.
3. Oil industry – rubbing parts of oil pumps, coating of drill bits, etc.
4. Mechanical engineering – anti-corrosion coating, friction parts of shafts, coating of drills, cutters, nozzles for waterjet. Protection of casting molds for high-temperature die casting.
5. It is possible to coat diamond drills with chromium carbide, which reduces wear and tear of diamond chips.
6. In the nuclear industry, medicine – anti-corrosion coating of radiation sources (the technology was implemented at Rosatom enterprises and is still successfully used).
7. Anti-corrosion coatings in microelectronics.
8. Decor – you can make mirrors for home use.