Obrabotka Metallov 2020 Vol. 22 No. 4

OBRABOTKAMETALLOV Vol. 22 No. 4 2020 17 TECHNOLOGY 4. Leyens C., Beyer E. Innovations in laser cladding and direct laser metal deposition. Laser Surface Engineering . Cambridge, Woodhead Publishing, 2015, pp. 181–192. DOI: 10.1016/B978-1-78242-074-3.00008-8. 5. Yang Y.H., Wu F.B . Microstructure evolution and protective properties of TaN multilayer coatings. Surface and Coating Technology , 2006, vol. 308, pp. 108–114. DOI: 10.1016/j.surfcoat.2016.05.091. 6. Contreras E., Galindez Y., Rodas M.A., Bejarano G., Gomez M.A. CrVN/TiN nanoscale multilayer coatings deposited by DC unbalanced magnetron sputtering. Surface and Coating Technology , 2017, vol. 332, pp. 214–222. DOI: 10.1016/j.surfcoat.2017.07.086. 7. Drankov A.V. Izgotovlenie detalei RKT iz otechestvennogo poroshka nerzhaveyushchei stali [Manufactur- ing of RCT parts from domestic stainless steel powder]. Additivnye tehnologii = Additive technologies , 2019, no. 2, pp. 50–55. 8. Das S., Wohlert M., Beaman J.J., Bourell D.L. Producing metal parts with selective laser sintering/hot isostatic pressing. JOM , 1998, vol. 50, pp. 17–20. DOI: 10.1007/s11837-998-0299-1. 9. Kovan V.M. Raschet pripuskov na obrabotku v mashinostroenii [Calculation of machining allowances in me- chanical engineering]. Moscow, Mashgiz Publ., 1953. 210 p. 10. Eguzwu E.O. Key improvement in the machining of dif fi cult-to-cut aerospace superalloys. International Journal of Machine Tools & Manufacture , 2005, vol. 45, pp. 1353–1367. DOI: 10.1016/j.ijmachtools.2005.02.003. 11. Samodurova M., Logachev I., Shaburova N., Samoilova O., Radionova L., Zakirov R., Pashkeev K., Myas- oedov V., Tro fi mov E. Study of the structural characteristics of titanium alloy products manufactured using additive technologies by combining the selective laser melting and direct metal deposition methods. Materials , 2019, no. 12. DOI: 10.3390/ma12193269. 12. Burova D.N., Tsebruk I.S., Klassen N.V. [Research and application of the in fl uence of the magnetic fi eld on the “iron-copper-water” system]. XVII Vserossiiskaya s mezhdunarodnym uchastiem shkola-seminar po strukturnoi makrokinetike dlya molodykh uchenykh imeni akademika A.G. Merzhanova [XVII All-Russian School-Seminar on Structural Macrokinetics for Young Scientists named after Academician A.G. Merzhanov], Chernogolovka, 2019, pp. 134–136. DOI: 10.24411/9999-004 А -2019-10045. (In Russian). 13. Rajeev G.P., Rahul M.R., Kamaraj M., Bakshi S.R. Microstructure and high temperature mechanical proper- ties of wire arc additively deposited Stellite 6 alloy. Materialia , 2020, vol. 12. DOI: 10.1016/j.mtla.2020.100724. 14. Turichin G.A., Somonov V.V., Klimova O.G. [Investigation and modeling of the process of forming a surfac- ing bead and microstructure during laser surfacing by radiation of a high-power fi ber laser]. Innovatsionnye tekhnolo- gii i ekonomika v mashinostroenii: sbornik trudov V Mezhdunarodnoi nauchno-prakticheskoi konferentsii [V Inter- national Scienti fi c and Practical Conference “Innovative Technologies and Economics in Mechanical Engineering”]. Tomsk, 2014, vol. 1, pp. 410–415. (In Russian). 15. Grigor’yants A.G., MisyurovA.I., Tret’yakov R.S. Analiz vliyaniya parametrov koaksial’noi lazernoi naplav- ki na formirovanie valikov [Analysis of the coaxial laser surface coating condition in fl uence on the bead formation]. Tekhnologiya mashinostroeniya = Engineering technology , 2011, no. 11, pp. 19–21. 16. Moosa A.A., Kadhim M.J., Subhi A.D. Dilution effect during laser cladding of inconel 617 with Ni-Al pow- ders. Modern Applied Science , 2011, vol. 5, pp. 50–55. DOI: 10.5539/mas.v5n1p50. 17. VedenovA.A. Fizicheskie protsessy pri lazernoi obrabotke materialov [Physical processes in laser processing of materials]. Moscow, Energomashizdat Publ., 1985. 208 p. 18. Jiang Y., Cheng Y., Zhang X., Yang J., Yang X., Cheng Z. Simulation and experimental investigations on the effect of Marangoni convection on thermal fi eld during laser cladding process. Optik , 2020, vol. 203. DOI: 10.1016/j. ijleo.2019.164044. 19. Bobuchenko D.S. Chislennoe modelirovanie gazoporoshkovoi lazernoi naplavki metallicheskikh materialov na podlozhki [Numerical simulation of gas-powder laser cladding of metallic materials on substrates]. Matematiches- koe modelirovanie = Mathematical Models and Computer Simulations , 1991, vol. 3, pp.109–122. (In Russian). 20. Shpilev A.I. Issledovanie i optimizatsiya gazoporoshkovykh potokov v golovkakh dlya lazernoi poroshkovoi naplavki. Diss. kand. tekhn. nauk [Research and optimization of powder fl ows in heads for laser powder surfacing. PhD eng. sci. diss.]. Kazan’, 2019. 179 p. Con fl icts of Interest The authors declare no con fl ict of interest.  2020 The Authors. Published by Novosibirsk State Technical University. This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0) .