Improving the Efficiency of the Cutting Tools Made of Mixed Ceramics by Applying Modifying Nanoscale Multilayered Coatings


Article Preview

The paper studies the influence of properties of a tool made of mixed ceramic by applying modifying with nanoscale multi-layered coatings on machinability of hardened tool steel XVG. The paper also examines the influence of cutting speed on wear resistance of mixed ceramic with nanoscale multilayered coatings. The mathematical models that found out the dependence of tool life of a ceramic tool with coating from cutting speed were developed.



Advanced Materials Research (Volumes 712-715)

Edited by:

Xianghua Liu, Kaifeng Zhang and Mingzhe Li




A. S. Vereschaka et al., "Improving the Efficiency of the Cutting Tools Made of Mixed Ceramics by Applying Modifying Nanoscale Multilayered Coatings", Advanced Materials Research, Vols. 712-715, pp. 391-394, 2013

Online since:

June 2013




[1] A.S. Vereschaka. Working capacity of the cutting tool with wear resistant coatings - М: Mashinostroenie. (1993), p.336.

[2] A.S. Vereschaka, A.A. Vereschaka. Functional coаtings for an edge cutting tools. Technology of hardening and coatings № 6. (2010), p.28.

[3] A.S. Vereschaka. A.A. Vereschaka. A.K. Kirillov. Ecologically friendly dry machining by cutting tool from layered composition ceramic with nano-scale multilayered coating. Key Eng. Materials Vol. 496 (2012), p.67.


[4] Grigoriev S.N., Vereschaka A.A., Vereschaka, A.S., Kutin A.A. Cutting tools made of layered composite ceramics with nano-scale multilayered coatings. Procedia CIRP 1 (2012), p.318 – 323.


[5] Metel A.S., Grigoriev C.N., MelnikYu.A. et. al. Glow discharge with electrostatic confinement of electrons in a chamber bombardment by fast electrons / Plasma physics reports. Vol. 37, N 7, (2011), p.628.


[6] A.S. Vereshchaka, B. Karpuschewski, L. Dubner. Development of the method of obtaining nanostructured functional coatings. Proceedings of the Intern. Scient. Conf. Production. Technology,. V. 1. (2008), p.62.

[7] Sablev L.P., Andreev A.A., Kunchenko V.V., Grigoriev S.N. Vacuum-arc evaporator of metals with an extended planar cathode / Proceedings of Materials Science Forum. 1998. P. 287-288.


[8] Grigoriev S. N., Mandel A. M., Oshurko V. B., Solomakho G. I. Determining the effective fractal dimension of nanodimensional coatings with the aid of magnetic field / Technical Physics Letters. 2011. Vol. 37, № 12. pp.1176-1178.


[9] Grigoriev S. N., Fominski V. Y., Gnedovets A. G., Romanov R. I. Experimental and numerical study of the chemical composition of WSex thin films obtained by pulsed laser deposition in vacuum and in a buffer gas atmosphere. Applied Surface Science. 2012. Vol. 258, № 18. pp.7000-7007.


[10] Grogoriev S. N., Krasnovskii A. N. Distribution of the density of material in the pressing channel in continuous forming of nanocrystalline composite powders / Metal Science and Heat Treatment. 2012. Vol. 54, № 3-4. pp.135-138.


[11] Grigoriev S., Melnik Y., Metel A. Broad fast neutral molecule beam sources for industrial-scale beam-assisted deposition / Surface & Coatings Technology. 2002. Vol. 156, № 1-3. pp.44-49.


[12] Plasma- and beam-assisted deposition methods. Nanostructured Thin Films and Nanodispersion Strengthened Coatings. / Grigoriev S., Metel A.; Voevodin A. A. 2004. Nanostructured Thin Films and Nanodispersion Strengthened Coatings. ‒ 147-154 p.


Fetching data from Crossref.
This may take some time to load.