ŽEMLIČKA, Radek, Mojmír JÍLEK, Petr VOGL, Pavel SOUČEK, Vilma BURŠÍKOVÁ and Petr VAŠINA. Automatic and robust deposition process control to grow hard nc-TiC/a-C:H coatings using industrial magnetron sputtering devices. In Fourteenth International Conference on Plasma Surface Engineering. 2014.
Other formats:   BibTeX LaTeX RIS
Basic information
Original name Automatic and robust deposition process control to grow hard nc-TiC/a-C:H coatings using industrial magnetron sputtering devices
Authors ŽEMLIČKA, Radek (203 Czech Republic, belonging to the institution), Mojmír JÍLEK (203 Czech Republic), Petr VOGL (203 Czech Republic), Pavel SOUČEK (203 Czech Republic, belonging to the institution), Vilma BURŠÍKOVÁ (203 Czech Republic, belonging to the institution) and Petr VAŠINA (203 Czech Republic, guarantor, belonging to the institution).
Edition Fourteenth International Conference on Plasma Surface Engineering, 2014.
Other information
Original language English
Type of outcome Conference abstract
Field of Study 10305 Fluids and plasma physics
Country of publisher Germany
Confidentiality degree is not subject to a state or trade secret
RIV identification code RIV/00216224:14310/14:00073878
Organization unit Faculty of Science
Keywords in English magnetron sputtering; TiC
Changed by Changed by: doc. Mgr. Pavel Souček, Ph.D., učo 175085. Changed: 12/12/2014 20:59.
Abstract
nc-TiC/a-C:H coatings consist of TiC crystallites embedded in an amorphous hydrogenated carbon matrix. Depending mainly on the chemical composition (ratio of Ti/C), the properties of these coatings can be tailored from hard coatings to tribological coatings, with low coefficients of friction and wear. However none of the major industrial coating centers offer this coating in their portfolio, probably because of the lack of the reliable deposition technology. In our research, we employed industrial PVD device of Platit equipped with a central titanium rotating cylindrical cathode. Titanium was sputtered in a mixture of argon and acetylene. When the acetylene supply was gradually increased, deposition process characteristics such as the cathode voltage and the total pressure in the deposition chamber underwent a sudden change. At critical acetylene supply, a sudden drop in the cathode voltage was observed, while before and after the drop, the cathode voltage evolved slowly. This sudden change in the plasma parameters was mirrored in chemical composition and mechanical properties of the deposited coatings. Close to critical acetylene supply, the highest coating hardness of 35 GPa was obtained. The critical acatylene supply shifts as the target gets eroded. In our work, we suggest the fully automatic, robust and reliable procedure to deposit hard nc-TiC/a-C:H coatings using the occurrence of the sudden plasma parameters change at critical acetylene supply to set the optimal deposition conditions. The procedure automatically controls the acetylene supply as a function of the cathode voltage and the pressure evolution. The process control was tested for different states of the target erosion and different chamber configurations.
Links
ED2.1.00/03.0086, research and development projectName: Regionální VaV centrum pro nízkonákladové plazmové a nanotechnologické povrchové úpravy
GAP205/12/0407, research and development projectName: Porozumění hybridnímu PVD-PECVD procesu s cílem řídit růst nanostrukturovaných kompozitních vrstev
Investor: Czech Science Foundation
PrintDisplayed: 5/10/2024 22:44