Study of wear mechanism of hard-alloy tools during machining of refractory alloys

Grigoriev, S.N., Metel, A.S., and Fedorov, S.V., Modification of the structure and properties of high-speed steel by combined vacuum-plasma treatment, Metal Sci. Heat Treat., 2012, vol. 54, pp. 8–12.

Sobol’, O.V., Andreev, A.A., Grigoriev, S.N., Volosova, M.A., and Gorban’, V.F., Vacuum-arc multilayer nanostructured TiN/Ti coatings: structure, stress state, properties, Metal Sci. Heat Treat., 2012, vol. 54, pp. 28–33.

Stroenie i svoistva aviatsionnykh materialov (Structure and Properties of Aviation Materials), Belov, A.F., Ed., Moscow: Metallurgiya, 1989.

Filatov, P.N., Increasing of durability of drawling tool from powder high-speed steel at heat-resistant nickel alloy treatment, Vestnik MGTU “Stankin”, 2008, no. 4, pp. 44–50.

Maslov, A.R., Measurement of the roughness parameters of a treated surface in turning parts fabricated from heat-resistant alloys, Measur. Techn., 2012, vol. 55, pp. 648–653.

Marochnik stalei i splavov (Marker of Steels and Alloys), Sorokin, V.G., Ed., Moscow: Mashinostroenie, 1989.

Poduraev, V.N., Rezanie trudnoobrabatyvaemykh materialov (Cutting of Intractable Materials), Moscow: Vysshaya Shkola, 1974.

Grigoriev, S.N., Fominskii, V.Yu., and Gusarov, A.V., Features of microand nanostructures of Au-Ni alloys obtained on nickel due to different modes of pulse laser alloying, Metal Sci. Heat Treat., 2012, vol. 54, pp. 34–40.

Vereshchaka, A.S., Kirillov, A.K., Sotova, E.S., and Dacheva, A.V., High-strength ceramic composite with nanostructural coating in environmentally benign dry cutting with compensation of lubricant properties, Russ. Eng. Res., 2010, vol. 30, pp. 1074–1076.

Adaskin, A.M., Kremnev, L.S., and Sapronov, I.Yu., Fracture of ledeburite and hypereutectoid high-speed steels, Metal Sci. Heat Treat., 2011, vol. 53, pp. 280–284.

Fel’dshtein, E.I., Obrabatyvaemost’ stalei (Steel Machinability), Moscow: Mashgiz, 1953.

Volosova, M.A. and Kuzin, V.V., Regular features of wear of cutting plates from oxide and nitride ceramics, Metal Sci. Heat Treat., 2012, vol. 54, pp. 41–46.

Kirillov, A.K., Vereshchaka, A.S., Kozlov, A.A., and Robakidze, Z.Yu., Dry cutting of hard-to-machine materials, with compensation of the physical functions of the lubricant and coolant fluid, Russ. Eng. Res., 2009, vol. 29, pp. 433–437.

Kremnev, L.S., Alloying theory and its use for creation of heat-resistant tool steels and alloys, Metal Sci. Heat Treat., 2008, vol. 50, pp. 526–534.

Kisel’, V.M., Evdokimov, Yu.I., Frolov, G.A., and Buchakov, S.V., Infliction of intermetallide Ni-Al compound coatings by high-speed air-combustive infliction method, Aviats.-Kosmich. Tekhn. Tekhnol., 2009, vol. 67, pp. 50–54.

Lifshits, B.G., Kraposhin, V.S., and Linetskii, Ya.L., Fizicheskie svoistva metallov i splavov (Physical Properties of Metals and Alloys), Moscow: Metallurgiya, 1980.

Khimicheskaya entsiklopediya, v 5 t. (Chemical Encyclopedia in 5 vols.), Zefirov, N.S., Moscow: Bol’shaya Rossiiskaya Entsiklopediya, 1999, vol. 5.

Zinov’ev, V.E., Teplofizicheskie svoistva metallov pri vysokikh temperaturakh. Sprav. (Thermophysical Properties of Metals at High Temperatures. A Handbook), Moscow: Metallurgiya, 1989.