Ceramic Coating Pellets
Time:2021-11-08 Author:Changsha Xinkang scientific research material service platform
There are three kinds of evaporation methods for ceramic coating particles: direct evaporation method, reactive evaporation method and dual evaporation source evaporation method.
When using the direct evaporation method, the compound may change as follows
①The composition of the compound does not change, and the compound film can be directly deposited to obtain the compound film—the compound film can be obtained
② When heated, the compound decomposes to form a vapor containing various gas phase components, and a film of some gas phase components is obtained during deposition—a compound film can be obtained
③The compound is decomposed when heated - the compound film cannot be obtained
In the application, attention should be paid to the heating temperature conditions, because in some cases, the heating temperature is different, the composition of various gas phase components is different, and the obtained films are also different.
The reactive evaporation method is a method of evaporating solid materials under the condition of full of active gas, and making them react on the substrate to obtain compound films. This method is often used to deposit thin films of high melting point compounds.
The double evaporation source evaporation method (three temperature method) is mainly used to make single crystal semiconductor compound films (III-V group compounds).
Ceramic coating particles provided by Xinkang
| Name | Purity | Name | Purity |
| 三氧化二铝(Al2O3) | 99.99% | 氧化锡掺氧化锑(ATO) | 99.90% |
| 钛酸钡(BaTiO3) | 99.99% | 三氧化二铋(Bi2O3) | 99.90% |
| 二氧化铈(CeO2) | 99.90% | 三氧化二铬Cr2O3) | 99.90% |
| 氧化铜(CuO) | 99.99% | 氧化镝(Dy2O3) | 99.99% |
| 氧化铒(Er2O3) | 99.99% | 氧化铕(Eu2O3) | 99.99% |
| 氧化钆(Gd2O3) | 99.99% | 二氧化铪(HfO2) | 99.99% |
| 氧化钬(Ho2O3) | 99.99% | 三氧化二铟(In2O3) | 99.99% |
| 氧化铟掺氧化锡(ITO) | 99.99% | 三氧化二铁(Fe2O3) | 99.90% |
| 四氧化三铁(Fe3O4) | 99.90% | 氧化钆(Gd2O3) | 99.90% |
| 铝酸镧(LaAl2O3) | 99.90% | 铌酸镧(LaNbO3) | 99.90% |
| 钛酸镧(LaTiO3) | 99.90% | 氧化铅(PbO) | 99.99% |
| 钛酸铅(PbTiO3) | 99.90% | 锆酸铅(PbZrO3) | 99.90% |
| 氧化镨(Pr6O11) | 99.90% | 铌酸铅(LiNbO3) | 99.90% |
| 氧化镥(Lu2O3) | 99.99% | 氧化镁(MgO) | 99.90% |
| 氧化钼(MoO) | 99.90% | 三氧化二钼(MO3) | 99.90% |
| 氧化钕(Nd2O3) | 99.90% | 一氧化镍(NiO) | 99.90% |
| 五氧化二铌(Nb2O5) | 99.99% | 钛酸镨(PrTiO3i) | 99.90% |
| 钛锆酸铅( PbTiO3) | 99.90% | 氧化钐(Sm2O3) | 99.99% |
| 氧化锑(Sb2O3) | 99.90% | 氧化钪(Sc2O3) | 99.99% |
| 一氧化硅(SiO) | 99.99% | 铬掺一氧化硅(Cr-SiO) | 99.99% |
| 二氧化硅(SiO2h) | 99.99% | 钛酸锶(SrTiO3) | 99.90% |
| 锆酸锶(SrZrO3) | 99.90% | 五氧化二钽(Ta2O5) | 99.99% |
| 氧化铽(Tb4O7) | 99.99% | 氧化铥(Tm2O3) | 99.99% |
| 三氧化二钛(Ti2O3) | 99.90% | 五氧化三钛(Ti3O5) | 99.90% |
| 一氧化钛(TiO) | 99.90% | 二氧化钛(TiO2) | 99.99% |
| 氧化钨(WO3) | 99.90% | 五氧化二钒(V2O5) | 99.90% |
| 氧化钇(Y2O3) | 99.99% | 氧化镱(Yb2O3) | 99.99% |
| 氧化锌(ZnO) | 99.90% | 氧化铝掺氧化锌(AZO) | 99.90% |
| 氧化钆掺氧化锌(GZO) | 99.90% | 氧化铟掺氧化锌(IZO) | 99.90% |
Smelting alloy
.Copper Nickel Titanium (CuNiTi) alloy
Powder metallurgy alloy
· Titanium Aluminum (TiAl) alloy
· Chromium Aluminum (CrAl) alloy
· Tungsten Titanium (WTi) alloy
· Molybdenum Niobium (MoNb) alloy
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