References
- Paton BE. The technology of electric fusion welding of metals and alloys. Moscow: Mashinostroenie; 1974.
- Hasui A, Morichaki O. Surfacing and spraying. Moscow: Mashinostroenie; 1985.
- Lyubich AI. Calculation of the thermodynamic probability of the formation of titanium and silicon tetrafluorides in slags of the electrodes with a basic coating. Svar. Proiz. 1988;5:37–39.
- Lyubich AI, et al. Technological properties of electrodes with the basic coating using new starting materials. Svar. Proiz. 1989;11:19–21.
- Lyubich AI, Pustovgar AV. Effect of silicocalcium on the structure and properties of deposited metal. Svar. Proiz. 2002;6:46–47.
- Ostroumov MA, Svit TF. Calculation of the equilibrium of temperature chemical processes. Zh. Fiz. Khimii. 1975;45:1269–1271.
- Wickes KE, Block FE. Ceramic properties of 65 elements, their oxides, halides, carbides and nitrides. Moscow: Metallurgiya; 1965.
- Kireev VA. Methods of practical calculations in the thermodynamics of chemical reactions. Moscow: Khimiya; 1975.
- Ryabin VA, et al. Thermodynamic properties of substances. Leningrad: Khimiya; 1977.
- Samsonov GV, Vinnitskii IM. Refractory compounds, a handbook. Moscow: Metallurgiya; 1976.
- Kazachkov EA. Calculations in the theory of metallurgical processes. Moscow: Metallurgiya; 1988.
- Wilson DR. Structure of liquid metals and alloys. Moscow: Metallurgiya; 1972.
- Vladimirov AP. Thermodynamic calculations of equilibrium of metallurgical reactions. Moscow: Metallurgiya; 1970.
- Krishtal MA, et al. Thermodynamic special features of modification of alloys. Moscow: Metallurgizdat; 1971. 357–368.
- Lyubich AI, Thermodynamic justification of the selection of elements in the transition from welding materials to molten metal in deposition of cast iron. Problems in mechanisation of agriculture. Khar’kov: KhGTUSKh; 1966; p. 169–174.
- Lyubich AI, et al. Investigation of the effect of titanium on the formation of a wear resistant alloy. Metallofizika i noveishie tekhnologii. 2013;35:645–658.
- Lyubich AI, Marchenko SV, Abrasive wear resistance of deposited metal with a higher content of titanium carbides. Vestnik SumyGU. Ser. Tekh. Nauki.; 2002;19: 95–99.
- Adler YuP, et al. Experiment planning in search for optimum conditions. Moscow: Nauka; 1971.
- Pustovgar AV. A method for calculating the flux-cored wire. Vestnik SumyGU. Ser. Tekh. Nauki; 2000; 15: 113–115.
- Tennenbaum MM. Abrasive wear resistance. Moscow: Mashinostroenie; 1976.
- Marchenko SV. Improving the wear resistance of components by deposition of the economically alloyed titanium-containing iron-carbon alloy, [Dissertation for the title of the Candidate of technical sciences, 05.02.01]. Zaporozh’e: Materialovedenie; 2010.