FIELD: metallurgy.
SUBSTANCE: coating has chemical composition CaSibBdNcOgH|Mem, where Me represents at least one metal of the group consisting of Al, Ti, V, Cr, Zr, Nb, Mo, Hf, Ta, W, Y, Sc, La, Ce, Nd, Pm, Sm, Pr, Mg, Co, Ni, Fe, Mn, with that, (a+b+d+e+g+l+m)=1, where 0.45≤a≤0.98, 0.01≤b≤0.40, 0.01≤d≤0.30, 0≤e≤0.35, 0≤g≤0.20, 0≤l≤0.35, 0≤m≤0.20.
EFFECT: coating has improved resistance to high-temperature oxidation and improved abrasion resistance.
49 cl, 6 dwg, 3 tbl, 1 ex
| Title | Year | Author | Number |
|---|---|---|---|
| TRANSPARENT ARTICLE WITH PROTECTING COATING | 2003 |
|
RU2287433C2 |
| PROTECTIVE LAYERS FOR OPTICAL COATINGS | 2003 |
|
RU2498954C2 |
| MATERIAL FOR HEAT-RESISTANT PROTECTIVE COATING | 2017 |
|
RU2685905C1 |
| METHOD FOR PRODUCING PROTECTIVE COATING ON SURFACE OF GLASS PRODUCTS | 0 |
|
SU1006402A1 |
| HARDENABLE COATINGS WITH DIAMOND-LIKE CARBON | 2018 |
|
RU2761278C2 |
| METHOD FOR OBTAINING MULTILAYER NANOCOMPOSITE COATING | 2022 |
|
RU2780078C1 |
| AIR OXIDISABLE SCRATCH RESISTANT PROTECTIVE LAYER FOR OPTICAL COATINGS | 2005 |
|
RU2424202C2 |
| METHOD FOR OBTAINING A TRANSPARENT WEAR-RESISTANT COATING BASED ON ALUMINUM-MAGNESIUM BORIDE ON THE SURFACE OF TRANSPARENT GLASS PRODUCTS | 2017 |
|
RU2680548C1 |
| SUBSTRATE HAVING REMOVABLE PROTECTIVE COATING AND CORRESPONDING METHODS | 2005 |
|
RU2429262C2 |
| PROTECTIVE COATING | 0 |
|
SU1745566A1 |
