Surface Topography and Tribological Properties of Cutting Tool Coatings

• Autorzy: Niemczewska-Wójcik Magdalena , Madej Monika

Identyfikatory

DOI

10.12913/22998624/173214

• Języki publikacji: EN

Abstrakty

EN

The surface topography formed during the technological process has an influence on the wear characteristics and modifies the surface topography of friction components during the operation process, including cutting tools. It is therefore important to carry out research to find the best material and construction solutions to increase their durability and reliability. The research and analysis covered selected coatings (TiN, TiCN, TiAlN) applied to cutting tools for their anti-wear properties. The coatings were obtained through physical vapour deposition PVD. For the purpose of evaluating the tribological properties of the coatings, friction-wear tests were carried out in rotary motion on a ball-on-disc device (ball made of 100 Cr6 steel, discs made of SW7M steel coated with selected coatings) at a constant load (10N), under coolant lubrication conditions. Investigations of the surface topography before and after tribological tests were carried out on a confocal microscope. The friction coefficient and the amount of wear (wear track) of the coatings were shown to vary under the same operating conditions. The highest friction coefficient was obtained for the TiCN coating (0.199), while the lowest for the TiN coating (0.144) – the surface topography of the balls deteriorated (parameters Sq, Sz, Ssk, Sku increased in value). The highest linear wear (281.1 µm) was obtained for the TiAlN coating (the coating was torn halfway through the test), where the ball surface topography has improved (lowered values of parameters Sq, Sz, Ssk, Sku, Spd, Spc).

Słowa kluczowe

EN

tribology; coatings; surface topography; cutting tools; friction coefficient; linear wear; wear track

• Wydawca: Lublin University of Technology ; Polish Society of Ecological Engineering (PTIE), Branch of PTIE in Lublin
• Czasopismo: Advances in Science and Technology. Research Journal
• Rocznik: 2023
• Tom: Vol. 17, no 6
• Strony: 39--48
• Opis fizyczny: Bibliogr. 21 poz., fig., tab.

Twórcy

autor

Niemczewska-Wójcik Magdalena

• Faculty of Mechanical Engineering, Cracow University of Technology, ul. Jana Pawła II 37, 31-864 Kraków, Poland

• https://orcid.org/0000-0001-9902-478X

autor

Madej Monika

• Faculty of Mechatronics and Mechanical Engineering, Kielce University of Technology, ul. Tysiąclecia Państwa Polskiego 7, 25-314 Kielce, Poland

• https://orcid.org/0000-0001-9892-9181

Bibliografia

• 1. Niemczewska-Wójcik M.: Dualny system charakteryzowania powierzchni technologicznej i eksploatacyjnej warstwy wierzchniej elementów trących, ITeE Radom-Kraków, 2018.
• 2. Niemczewska-Wójcik M., Madej M. Kowalczyk J., Piotrowska K.: A comparative study of the Surface topography in dry and wet turning using the confocal and interferometric modes, Mesurement 204, 2022, 112144.
• 3. Feldshtein E., Józwik J., Legutko S., The influence of the conditions of emulsion mist formation on the surface roughness of AISI 1045 steel after finisz turning, Advances in Science and Technology Reearch Journal 10/30, 2016, 144–149,
• 4. Gudmundsson J.T. Anders, A. Von Keudell A.: Foundations of physical vapor deposition with plasma assistance, Plasma Sources Sci. Technol. 31, 2022, 0830012.
• 5. Kowalczyk J. Madej M. Ozimina D.: Evaluation of performance characteristics of the environmentally friendly cutting fluid with zinc aspartate, Maintenance and Reliability 22/3, 2020, 465–471.
• 6. Batista J.C.A., Joseph M.C., Godoy C., Matthews A.: Micro-Abrasion wear testing of PVD TiN coatngs on untreated and plasma nitride AISI, H13 steel, Wear 249(10–11), 2011, 971–979.
• 7. Wang Y., Li J., Dang C., Wang Y., Zhu Y.: Influenceof carbon contents on the structure and tribocorosion properties of TiSiCN coatings on Ti6Al4V, Tribol. Int. 109, 2017, 285–296.
• 8. Naghashzadeh A.R., Shafyei A., Sourani, F.: Nanoindentation and tribological behavior of TiN-TiCN-TiAlN multi-layer coatings on AISI D3 tool steel, Journal of Materials Engineering and Performance 31 (6), 2022, 4335–4342.
• 9. Ramadoss R., Kumar N., Pandian R., Dash S., Ravindran T.R., Arivuoli D., Tyagi A.K., Tribological properties and deformation mechanism of TiAlN coating sliding with various counterbodies, Tribol. Int. 66, 2013, 143–149.
• 10. Akinribide O.J., Obadele B.A., Akinwamide S.O., Bilal H., Ajibola O.O., Ayeleru O.O., Ringer S.P., Olubambi P.A.: Sintering of binderlessTiN and TiCN-based cermet for toughness applications: processing techniques and mechanical properties: a review, Ceram. Int. 45, 2019, 21077–21090.
• 11. Szczotkarz N., Mrugalski R., Maruda R.W., Królczyk G.M., Legutko S., Leksycki K.,Dębowski D., Pruncu C.I., Cutting tool wear in turning 316L stainless steel in the conditions of minimized lubrication, Tribology International 156, 2021, 1–11.
• 12. Aihua L., Jianxin D., Haibing C., Yangyang C., Jun Z.: Friction and Wear Properties of TiN, TiAlN, Al- TiN and CrAlN PVD nitride coatings, International Journal of Refractory Metals and Hard Materials 31, 2012, 82–88.
• 13. Levent K., Hojjat A., Özcan K.: The effect of TiN, TiAlN, CrAlN, and TiAlN/TiSiN coatings on the wear properties of AISI, H13 steel at room temperature, Surf. Rev. Lett. 29(6), 2019, 1950063.
• 14. Danisman S., Odabas D., Teber M.: The effect of TiN, TiAlN, TiCN thin films obtained by reactive magnetron sputtering method on the wear behawior of Ti6Al4V alloy: a comparative study, Coatings 12, 2022, 1238.
• 15. Al-Asadi M.M., Al-Tameemi H.A.: A review of tribological properties and deposition methods for selected hard protective coatings, Tribology International 176, 2022, 107919.
• 16. Nieslony P., Cichosz P., Krolczyk G.M., Legutko S., Smyczek D., Kolodziej M.: Experimental studies of the cutting force and surface morphology of explosively clad Ti–steel plates. Measurement 78,2016, 129–137
• 17. Zagórski I., Korpysa J., Surface quality in milling of AZ91D magnesium alloy. Advances in Science and Technology Research Journal 13(2), 2019, 119–129.
• 18. Paskvale S., Remškar M., Čekada M., Tribological performance of TiN, TiAlN and CrN hard coatings lubricated by MoS2 nanotubes in polyalphaolefin oil, Wear 352-353, 2016, 72–78.
• 19. Wang Q., Zhou F., Gao S., Zhou Z., Kwok-Yan Li L., Yan J., Effect of counterparts on the tribological properties of TiCN coatings with low carbon concentration in water lubrication, Wear 328-329,2015, 356–362.
• 20. Madej M., Kowalczyk J., Ozimina D., Milewski K., The tribological properties of titanium carbonitride TiCN coating lubricated with non-toxic cutting fluid, Materials Research Proceedings 5, 2018, 47–53.
• 21. Madej, M., Kowalczyk J., Kulczycki A., Ozimina D., The use of biodegradable cutting fluid for thin and hard a-C:H and TiAlN coatings, Tribologia 6, 2017, 45–52.

Uwagi

Opracowanie rekordu ze środków MNiSW, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2024).