Coating Process Investigation of DLC Coating Spinning Rings

Qing Hua Zou; Bing Yang

doi:10.4028/www.scientific.net/AMM.198-199.36

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 198-199Coating Process Investigation of DLC Coating...

Coating Process Investigation of DLC Coating Spinning Rings

Abstract:

with DLC coating spinning rings as the subject, focuses on the mechanism of damage on spinning ring track caused by textile fiber fabrics adhering to spinning ring surface and relevant adhesive wear and fatigue wear. Aiming at its failure, single DLC coating is substituted by Ti-DLC coating spinning rings. The process after improvement adopts unbalanced closed magnetron sputtering ion plating and Ti-doping multi-layer composite coating technology to prepare Ti-DLC composite film on the surface of spinning rings under the condition of basic temperature below 100°C. As indicated by the study on the impact of different Ti contents on friction and were performance of the film, improved Ti-DLC coating spinning rings are superior to DLC coating spinning rings in terms of deposition rate, adhesion, hardness, wear resistance, friction coefficient and wear rate, ensuring better adhesion resistance and fatigue resistance.

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Periodical:

Applied Mechanics and Materials (Volumes 198-199)

Pages:

36-39

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.198-199.36

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Online since:

September 2012

Authors:

Qing Hua Zou, Bing Yang

Keywords:

Diamond-Like Carbon (DLC), Friction Coefficient (FC), Magnetron Sputtering Coating Spinning Rings, Ti-Doping, Wear Rate

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References

[1] Thermal conductivity and thermal insulation of textile fibers/http: /www. tex-asia. com/html/knowledge/weaveschool/stock/2007/11/071120151546JF. html.

Google Scholar

[2] B. Yang Z.H. Huang C.S. Liu X.J. Fan et al, Characterization and propertiesof Ti-containing amorphous carbon nanocomposite coatings prepared by middle frequency magnetron sputtering, Surf. Coat. Technol., 200 (20-21) (2006) pp.5812-5818.

DOI: 10.1016/j.surfcoat.2005.08.150

Google Scholar

[3] Zou, QH; Zhang, DY, Zhao, HM, Geng, M; Wang, ZG, Effects of Lanthanum on Properties of Cathode Materials and Ion Implanted Spinning Rings, Transactions of Nonferrous Metals Society of China, 14 (SⅡ)(2004)pp.278-281.

Google Scholar

[4] Zou, Q.H.; Zhao, H.M.; Zhang, D.Y.; Geng, M.; Wang, Z.G.; Lu, J.J., Thermophysics Characteristics and Densification of Powder Metallurgy Composite, Powder Metallurgy, 49 (2 )(2006)pp.183-188.

DOI: 10.1179/174329006x111519

Google Scholar