[1]
A.A. Vereshchaka A.S. Vereshchaka,O. Mgaloblishvili, M.N. Morgan and A.D. Batako: Nano-scale multilayered-composite coatings for the cutting tools. Int. J. Adv. Manuf. Techn., V. 72, Is. 1 (2014), pp.303-317.
DOI: 10.1007/s00170-014-5673-2
Google Scholar
[2]
A. D. Sharma, A. K. Sharma andN. Thakur: Crystallographic, microstructure and mechanical characteristics of dynamically processed IN718superalloy. J. ALLOYS COMP., V. 597 (2014), pp.175-180.
DOI: 10.1016/j.jallcom.2014.02.011
Google Scholar
[3]
A.R. Maslov: Measurement of the roughness parameters of a treated surface in turning parts fabricated from heat-resistant alloys, Meas. Techn. V. 55 (2012), № 6, pp.648-653.
DOI: 10.1007/s11018-012-0015-y
Google Scholar
[4]
A.A. Andreev, I.V. Serdyuk, V.M. Beresnev, M.A. Volosova, S.N. Grigor'evet al.: Tribological Characteristics Of Nanocomposite Vacuum-Plasma Ti-Hf, Ti-Hf-N, and Ti-Hf-Si-N Coatings, J. Fric. Wear, V. 34 (2013), Is. 3, pp.175-182.
DOI: 10.3103/s1068366613030033
Google Scholar
[5]
S.N. Grigor'ev, S.V. Fedorov, M.D. Pavlov, A.A. Okun'kova andY.M. So: Complex surface modification of carbide tool by Nb plus Hf plus Ti alloying followed by hardfacing (Ti plus Al)N, J. Fric. Wear, V. 34 (2013), Is. 1, pp.14-18.
DOI: 10.3103/s1068366613010054
Google Scholar
[6]
S. N. Grigoriev, Yu A. Melnik and A. S. Metel: Gas discharge source of metal vapor and fast gas atoms, INSTR. EXP. TECHN., V. 56 (2013), Is. 3, pp.358-364.
DOI: 10.1134/s0020441213030044
Google Scholar
[7]
A. Vereschaka: Development of assisted filtered cathodic vacuum arc deposition of nano-dispersed multi-layered composite coatings on cutting tools. Key Eng. Mat., V. 581 (2014), pp.62-67.
DOI: 10.4028/www.scientific.net/kem.581.62
Google Scholar
[8]
S. N. Grigoriev, A. S. Metel, M. A. Volosova, et al.: Hardening of a Surface of Products of the Complex Geometrical Shape in a mixture of a Metallic Vapour and Fast Molecules of Gas, METALLOFIZIKA I NOV. TEKHNOL., V. 35 (2013).
Google Scholar
[9]
Fan, YiHang; Hao, ZhaoPeng; Zheng, MinLi; et al. Study of surface quality in machining nickel-based alloy Inconel 718, Int. J. Adv. Manuf. Techn., V. 69 (2013), Is. 9-12, pp.2659-2667.
DOI: 10.1007/s00170-013-5225-1
Google Scholar
[10]
A. A. Vereschaka, M. A. Volosova, S. N. Grigoriev, et al.: Development of wear-resistant complex for high-speed steel tool when using process of combined cathodic vacuum arc deposition, Proc. CIRP (CIRPE2013),V. 92013, pp.8-12.
DOI: 10.1016/j.procir.2013.06.159
Google Scholar
[11]
S. N. Grigoriev, A. S. Metel' andS. V. Fedorov: Modification of the structure and properties of high-speed steel by combined vacuum-plasma treatment / Met. Sc. Heat Treat., V. 54 (2012), Is.: 1-2, pp.8-12.
DOI: 10.1007/s11041-012-9447-x
Google Scholar
[12]
O. V. Sobol', A. A. Andreev, S. N. Grigoriev, et al.: Effect of high-voltage pulses on the structure and properties of titanium nitride vacuum-arc coatings, Met. Sc. Heat Treat., V. 54 (2012), Is. 3-4, pp.195-203.
DOI: 10.1007/s11041-012-9481-8
Google Scholar
[13]
A.A. Vereschaka, A.S. Vereschaka, S.N. Grigoriev andD.V. Sladkov: Nano-scalemulti-layeredcoatingsforcuttingtoolsgeneratedusingassistedfilteredcathodic-vacuum-arcdeposition (AFCVAD), Appl. Mech. Mater.,V. 327 (2013), pp.1454-1459.
DOI: 10.4028/www.scientific.net/amm.325-326.1454
Google Scholar
[14]
S.N. Grigorev, O.B. Kovalev, V.I. Kuzmin, A.A. Mikhal'chenko, et al.: New possibilities of plasma spraying of wear-resistant coatings,J. Fric. Wear, V. 34 (2013), № 3, pp.161-165.
DOI: 10.3103/s1068366613030070
Google Scholar
[15]
Sobol, O. V.; Andreev, A. A.; Voyevodin, V. N.; et al.: Potential Effects of Bias and Nitrogen Pressure on Structural-Stress State and Properties of Nitride Coatings, obtained by Evaporation of High-Entropy Alloys by Vacuum Arc, Probl. Atom. Sc. Techn., Is. 1 (2014).
Google Scholar