References
- Kondrat’ev IA, et al. Flux-cored wire for deposition of layers of maraging steel. Avtom Svarka. 2006;4:50–53.
- Furman EL, Gorin MV. Effect of alloying element on the hot cracking susceptibility of deposited metal. Svar Proizvod. 2007;1:22–23.
- Sokolov GN, Lysak VI. Deposition of wear-resisting alloys on press dies and tools for hot deformation of steel. Volgograd: Volgograd State Technical University; 2005.
- Makarenko NA, Grin’ AG. Investigations and development of welding materials and technology for producing a bimetallic layer with the required properties. Kiev: Donbas State Engineering Academy; 2013.
- Gerov VV. The effect of surface modification on the static and cyclic characteristics of the maraging steel. Dissertation for the title of the Candidate of Technical Sciences. Section 05.14.01. Moscow: A.A. Baikov Institute of Metallurgy and Materials Science; 2003.
- Manstsiashvili OG. Effect of nitrogen on the cutting properties of high-speed tool steels with high productivity. Metals Science and Corrosion of Metals. Vol. 6. Tbilisi: Menuereba; 1980.
- Bogutskii AA, Kushchii AM. Mechanised hardfacing of metal cutting tools with high-speed tool steel. Heavy engineering problems and prospects of development. Materials of the Fifth International Science Conference. Kramatorsk: Donbass State Engineering Academy; 2007.
- Kal’yanov VN, Bagrov VA. Maraging steels for hardfacing dies. Svar Proizvod. Kramatorsk: Donbass State Engineering Academy. 2003;2:35–37.
- Brostrem VA, Geller YUA. Transformation and properties of high-speed tool alloys with the intermetallic inclusions. Metalloved Term Obrabotka Metallov. 1966;11:35–39.
- Il’in VP, Kushchii AM. The effect of chemical composition on the hardness of chromium – molybdenum steels after tempering. Izhevsk: Welding production; 1975.
- Bel’skii EI, Tomilin RI. Improving the durability of dies. Minsk; 1963.
- Klimen’t’ev AD. The investigation of the cast dispersion-hardening cutting alloys. Vol. 3. zv. VUZ. Chernaya Metallurgiya; 1959. p. 77.
- Gulyaev AP. The theory of high-speed tool steels. Stanki i instrument. 1946;2–3:26–31.
- Kremnev LS, et al. Examination of the structure and properties of a low-alloy high-speed tool steel. Stal’. 1978;8:49–52.
- Pavlova LP. Geller YuA, The effect of tempering on the dispersion hardening of high-speed tool steels. Metalloved Term Obrabotka Metallov. 1967;4:43–44.
- Geller YuA. The tool steels. 5th ed. Moscow: Metallurgiya; 1983.
- Donskaya KA. The properties of tungsten-free steel for cutting tools. Stal’. 1984;1:73–80.
- Mes’kin VS. The principles of alloying steels. Moscow: Metallurgiya; 1964.
- Gubenko SI. Transformation of non-metallic inclusions in steel. Moscow: Metallurgiya; 1991.
- Kutuev IKH. Effect of carbon and nitrogen on the properties of high-speed tool steel. In: Tool and bearing steels Vol. 4. Moscow. Metallurgiya; 1979. p. 5–10.
- Kremnev LS, Grishina LYA. The nature of the effect of nitrogen on the structure and properties of high-speed tool steels. Diffusion, phase transformations, mechanical properties of metals and alloys. VZMI. Vol. 3. Moscow; 1979.
- Pokrovskii VP. Investigations of the cutting properties of M5F5 tungsten-free high-speed steel. Rational processing by cutting. Moscow: Moscow State Technical University; 1981.