The protective coating has special characteristics
Roughness Ra, μm
×35
0.9–2.1 -> 0.06
Microhardness kg/mm2
×3
200–300 -> 750
low -> high
Corrosion resistance
how it WORKS
REVOLUTIONARY NANOTECHNOLOGY
REVITALIZATION. Ceramic-metal coating
Surface restoration
As a result, a protective coating is formed on the surfaces of the friction pairs — the part increases in volume and restores its geometry
In the final stage, a superstrong ceramic-metal gradient coating is formed. Surface growth stops with positive compressive stresses throughout its depth.
New coating formation
REVITALIZANT triggers the growth of a new ceramic-metal coating that restores worn surfaces
REVITALIZANT comes with the lubricant and is activated in the area of highest wear where excess energy is available. Acting as a catalyst, it engages the work surface metal as well as carbides and metal particles from the lubricant in the coating formation process.
Wear of the working surface
The service life of any mechanism depends on the degree of wear of the working surfaces of its parts
Any scratch or chip caused by solid foreign particles (dust, dirt, shavings) results in a zone of abnormal surface activity. Metal atoms here have uncompensated bonds, and as the load increases, they are easily “shaken” and torn away from the matrix. The metal begins to turn into shavings.
