[1]
R.S. Saifullin, Composition coating and materials. Moscow. Chemistry. (1977).
Google Scholar
[2]
R.S. Saifullin, Inorganic composition materials. Moscow. Chemistry, (1983).
Google Scholar
[3]
R.S. Saifullin, Physical chemistry of the inorganic polymeric and composition materials. Moscow. Chemistry, (1990).
Google Scholar
[4]
L.I. Antropov, U.N. Lebedinskii, Composition electrochemical coating and materials. Kiev. Materiel, (1986).
Google Scholar
[5]
I.N. Borodin, Hardening details composition coating. Moscow. Engineering, (1982).
Google Scholar
[6]
T.W. Jelinek, Fortschrite in der Galvanotekchnik. Eine Auswertung der international Fachliteratur 2003 – 2004, Galvanotekchnik. 96 (1) (2005) 42–71.
Google Scholar
[7]
Guryanov, G.V. Electrodeposition of wear-resistant composite coatings. Chisinau. Shtiintsa, (1985).
Google Scholar
[8]
Borodin I.N. Powder electroplating. Moscow. Mechanical Engineering. (1990).
Google Scholar
[9]
Dushevsky IV, Borodin I.N., Strengthening of the surface layer of machine parts by electrodeposition of composite coatings, Izv. universities Chemistry and Chemical Technology., 17 (7) (1972) 1091-1104.
Google Scholar
[10]
Antropov LI, Bykova MI, Shklyanaya IV, Nastenko N.Ya., Composite electrochemical coatings with nickel with inclusion of titanium carbide and boron nitride particles. Protection of metals. 10 (4) (1974) 382-385.
Google Scholar
[11]
Nikitin Yu.I., Pogorely BV, Prudnikov E.L., On the issue of manufacturing diamond tools on a galvanic bond. Synthetic diamonds. 6 (1975) 16-19.
Google Scholar
[12]
Prudnikov E.L., Tool with diamond-plated coating. Moscow. Mechanical Engineering. (1985).
Google Scholar
[13]
Grigorovich V.K., Hardness and microhardness of metals. Moscow. Nauka. (1976).
Google Scholar
[14]
Filatov V.I., Microhardness of compositional galvanic nickel-corundum coatings. Electronic processing of materials. 5 (1974) 35-37.
Google Scholar
[15]
Sidorin I.N., Dolgova N.A., Wear resistance of tool steels and its dependence on the distribution of alloying elements in martensite and carbides. Izvestiya Vuzov. Mechanical engineering. 5 (1970) 155-157.
Google Scholar
[16]
K. V. Murzenko, V.I. Balakai, Dependence of physic-mechanical properties of a nickel-cobalt-aluminum oxide composite electrolytic coating on the dispersity of the alloying component, Rus. J. Appl. Chem. 87 (6) (2014) 730-733.
DOI: 10.1134/s1070427214060111
Google Scholar
[17]
V.I. Balakai, K.V. Murzenko, A.V. Arzumanova, V.F. Kukoz, I.F. Byrylov, Properties of a nickel-boron-fluoroplastic electrolytic composite coating, Rus. J. Appl. Chem. 84 (3) (2011) 395-399.
DOI: 10.1134/s1070427211030104
Google Scholar
[18]
V.I. Balakai, K.V. Murzenko, I.F. Byrylov, D.N. Kuznetcov, D.B. Nabieva, Properties of nickel-cobalt-diamond composite coating deposited from a chloride electrolyte, Rus. J. Appl. Chem. 83 (9) (2010) 1581-1588.
DOI: 10.1134/s1070427210090144
Google Scholar
[19]
N.M. Shmeleva, Inspector working on metal coating. Moscow. Metallurgy. (1966).
Google Scholar
[20]
I.L. Rozenfeld, K.A. Jigalova Shortcut methods corrosive material test (theory and practice). Moscow. Metallurgy. (1970).
Google Scholar