References
- Childerhouse T., M’Saoubi R., Franca L.F.P., Crawforth P., Jackson M., Machining performance and wear behaviour of polycrystalline diamond and coated carbide tools during milling of titanium alloy Ti-54M, Wear 2023.
- Hon K., Baharudin B.H.T., The impact of high speed machining on computing and automation, Int. J. Autom. Comput. 2006.
- Kluz R., Habrat W., Bucior M., Krupa K., Sęp J., Multi-criteria optimization of the turning parameters of Ti-6Al-4V titanium alloy using the Response Surface Methodology, Eksploat. Niezawodn. – Maint. Reliab., 2022.
- Matuszak J., Zaleski K., Ciecieląg K., Skoczylas A., Analysis of the Effectiveness of Removing Surface Defects by Brushing, Materials 2022.
- Schulz H., High-Speed Machining, In: Dashchenko A.I., Editor. Manuf. Technol. Mach. Futur. 21st Century Technol., Berlin, Heidelberg: Springer Berlin Heidelberg, 2003.
- Wojciechowski S., Krajewska-Śpiewak J., Maruda R.W., Krolczyk G.M., Nieslony P., Wieczorowski M., Gawlik J., Study on ploughing phenomena in tool flank face‒workpiece interface including tool wear effect during ball-end milling, Tribol. Int., 2023.