Effect of SiC Ceramic Nanoparticles on Mechanical Properties of Nanocomposite SiC/a-C:H Coatings

• Autorzy: Chronowska-Przywara K. , Kot M.
• Języki publikacji: EN

Abstrakty

EN

The paper presents the results of the mechanical and tribological properties of hydrogenated amorphous carbon coating a-C:H and coatings, where SiC ceramic nanoparticles were introduced into a-C:H matrix. Coatings were deposited by magnetron sputtering and the ratio of nanoparticles in the matrix was varied by changing the acetylene flow in the vacuum chamber within the 5-20 sccm range. Results of indentation tests, scratches and wear tests of tested systems allowed to optimize the deposition process.

Słowa kluczowe

EN

scratch test; coating; friction; wear; cracking

• Wydawca: Oficyna Wydawnicza Politechniki Warszawskiej
• Czasopismo: Machine Dynamics Research
• Rocznik: 2015
• Tom: Vol. 39, No. 2
• Strony: 45--52
• Opis fizyczny: Bibliogr. 20 poz., il., wykr.

Twórcy

autor

Chronowska-Przywara K.

• AGH, University of Science and Technology

autor

Kot M.

• AGH, University of Science and Technology

Bibliografia

• 1. Bharathy P., Vijai, et al., 2010, Effect of titanium incorporation on the structural. Mechanical ang biocompatible properties od DLC thin films prepared by reactive-biased target ion beam deposition method. Applied Surface Science, 257.1 pp. 143-150.
• 2. Bull S.J., Beresetegui E.G., 2006, An overview of the potential of quantitative coating adhesion measurement by scratch testing. Tribology International 39 pp.99–114.
• 3. Chronowska-Przywara K., Kot M., Zimowski S., 2014, Techniki badawcze w analizie właściwości mechanicznych i tribologicznych cienkich warstw i powłok. Zeszyty Naukowe Politechniki Śląskiej ; nr 1904. Transport; z. 83, pp. 39–49.
• 4. Dąbrowski, M., et al., 2009, Powłoki (Cr, Si) N/Tin na płytkach z węglików spiekanych. Elektronika: konstrukcje, technologie, zastosowania, 50.1 pp. 66-68.
• 5. Dobrzański L.A., Dobrzańska-Danikiewicz A.D, 2011, Obróbka powierzchni materiałów inżynierskich, Open Access Library 5 pp. 132-136.
• 6. EN 1071-3; Advanced technical ceramics – Methods of test for ceramic coatings. Part 3: Determination of adhesion and other mechanical failure modes by a scratch test.
• 7. Escudeiro A., Polcar T., Cavaleiro A., 2013, a-C:H and a-C:H-Zr coatings deposited on biomedical Ti- based substrates, Tribological properties. Thin Solid Film 538, pp. 89-96.
• 8. Gilewocz A., Warcholiński B., 2010, Twarde powłoki ta-C otrzymane metodą impulsowego katodowego odparowania łukowego, Inżynieria Materiałowa 31 pp. 50-53.
• 9. Holmberg K., Matthews A., 2009, Coatings tribology: properties, mechanisms, techniques and applications in surface engineering, Elsevier, Amsterdam pp. 156-167, 274-27.
• 10. ISO 14577-1. Metallic materials instrumented indentation test for hardness and material parameters. Part 1: Test method.
• 11. ISO 20808:2004. Fine ceramics (advanced ceramics, advanced technical ceramics) - Determination of friction and wear characteristics of monolithic ceramics by ball-on-disc method.
• 12. Kot M., Lacki P., 2012, Contact mechanics of coating-substrate systems: I – Methods of analysis and FEM modeling of nanoindentation tests. Journal of the Balkan Tribological Association, 18 pp. 598–614.
• 13. Kot M., Major Ł., Chronowska-Przywara K., Lackner J. M., Waldhauser W., Rakowski W., 2014, The advantages of incorporating CrxC nanograins into an a−C:H matrix in tribological coatings. Materials and Design, vol. 56, s. 981–989.
• 14. Liu Y., Erdemir A., Meletis E.I., 1996, An investigation of the relationship between graphitization and frictional behavior of DLC coatings. Surface and Coatings Technology 86-87 pp. 564–568
• 15. Łukaszkowicz K., 2012, Kształtowanie struktury i własności powłok hybrydowych na rewersyjnie skręcanych matrycach do wyciskania, Open Access Library 10(16) 20-24.
• 16. Martinez-Martinez Z., wt.al., 2008, Comparative performance of nanocomposite coating of TiC or TiN dispersed in aC matrixes, Surface and Coatings Technology , 203.5 pp. 756-760.
• 17. Roberson J., 2002, Diamond- like amorphous carbon. Materials Science and Engineering, R: Reports, 37.4:129-281
• 18. Vepř Ek S., 1997, Conventional and new approaches towards the design of novel superhard materials 97 pp. 15–22.
• 19. Voevodin A.A., J.S. Zabinski, 2000, Supertough wear-resistant coatings with 'chameleon' surface adaptation, Thin Solid Films 370 pp. 223–231.
• 20. Voevodin A.A., Zabinski J.S., 2005, Nanocomposite and nanostructured tribological materials for space applications, Composites Science and Technology 65 pp. 741–748

Uwagi

PL

Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę.