OBRABOTKAMETALLOV Vol. 26 No. 2 2024 93 TECHNOLOGY 19. Jenkins N., Hart P.H.M.H., Parker D.H. An evaluation of rapid methods for diff usible weld hydrogen. Welding Journal, 1997, vol. 76 (1), pp. 1–10. 20. Rhode M., Schaupp T., Muenster C., Mente T., Boellinghaus T., Kannengiesser T. Hydrogen determination in welded specimens by carrier gas hot extraction – a review on the main parameters and their eff ects on hydrogen measurement. Welding in the World, 2019, vol. 63, pp. 511–526. DOI: 10.1007/s40194-018-0664-9. 21. Sergeev N.N., Sergeev A.N., Kutepov S.N., Gvozdev A.E., Ageev E.V. Diff uziya vodoroda v svarnykh soedineniyakh konstruktsionnykh stalei [Diff usion of hydrogen in welded joints of structural steels]. Izvestiya Yugo-Zapadnogo gosudarstvennogo universiteta = Proceedings of the Southwest State University, 2017, vol. 21 (6), pp. 85– 95. DOI: 10.21869/2223-1560-2017-21-6-85-95. 22. Karkhin V.A., Aldaie Ya., Levchenko A.M. Koeffi tsient diff uzii vodoroda v svarivaemykh stalyakh [Hydrogen diff usion coeffi cient in welded steels]. Svarka i diagnostika = Welding and Diagnostics, 2021, no. 6, pp. 20–27. 23. Aldaie Ya., Karkhin V.A., Levchenko A.M. Rastvorimost’ vodoroda v svarivaemykh stalyakh [Hydrogen solubility in welded steels]. Svarka i diagnostika = Welding and Diagnostics, 2022, no. 3, pp. 25–31. 24. GOST 34061–2017. Svarka i rodstvennye protsessy. Opredelenie soderzhaniya vodoroda v naplavlennom metalle i metalle shva dugovoi svarki [State standard 34061–2017. Welding and allied processes. Determination of hydrogen content in deposited metal and arc weld metal]. Moscow, Standardinform Publ., 2020. 31 p. 25. STO 02494680-0056-2007. Sloistoe razrushenie svarnykh soedinenii stroitel’nykh svarnykh konstruktsii. Trebovaniya pri proektirovanii, izgotovlenii i montazhe. Prilozhenie G (spravochnoe): Opredelenie nachal’nogo soderzhaniya diff uzionnogo vodoroda v metalle shva metodom «karandashnoi» spirtovoi (glitserinovoi) proby (kratkoe opisanie) [Layered destruction of welded joints of building welded structures. Requirements for design, manufacturing and installation. Appendix G (for reference): Determination of the initial content of diff usion hydrogen in the weld metal using the “pencil” alcohol (glycerin) test (brief description)]. Moscow, TsNIIPSK im. N.P. Melnikova Publ., 2007, pp. 32–33. 26. Skeeba V.Yu., Ivancivsky V.V., Kutyshkin A.V., Parts K.A. Hybrid processing: the impact of mechanical and surface thermal treatment integration onto the machine parts quality. IOP Conference Series: Materials Science and Engineering, 2016, vol. 126 (1), p. 012016. DOI: 10.1088/1757-899x/126/1/012016. 27. Efremenkov E.A., Martyushev N.V., Skeeba V.Yu., Grechneva M.V., Olisov A.V., Ens A.D. Research on the possibility of lowering the manufacturing accuracy of cycloid transmission wheels with intermediate rolling elements and a free cage. Applied Sciences, 2022, vol. 12 (1), p. 5. DOI: 10.3390/app12010005. 28. Martyushev N.V., Skeeba V.Yu. The method of quantitative automatic metallographic analysis. Journal of Physics: Conference Series, 2017, vol. 803 (1), p. 012094. DOI: 10.1088/1742-6596/803/1/012094. 29. Skeeba V.Yu., IvancivskyV.V. Reliability of quality forecast for hybrid metal-working machinery. IOPConference Series: Earth and Environmental Science, 2018, vol. 194 (2), p. 022037. DOI: 10.1088/1755-1315/194/2/022037. 30. Zverev E.A., Skeeba V.Yu., Skeeba P.Yu., Khlebova I.V. Defi ning effi cient modes range for plasma spraying coatings. IOP Conference Series: Earth and Environmental Science, 2017, vol. 87 (8), p. 082061. DOI: 10.1088/17551315/87/8/082061. 31. Skeeba V.Yu. Gibridnoe tekhnologicheskoe oborudovanie: povyshenie eff ektivnosti rannikh stadii proektirovaniya kompleksirovannykh metalloobrabatyvayushchikh stankov [Hybrid process equipment: improving the effi ciency of the integrated metalworking machines initial designing]. Obrabotka metallov (tekhnologiya, oborudovanie, instrumenty) = Metal Working and Material Science, 2019, vol. 21, no. 2, pp. 62–83. DOI: 10.17212/19946309-2019-21.2-62-83. 32. Borisov M., Lobanov D., Yanyushkin A., Skeeba V. Issledovanie protsessa avtomaticheskogo upravleniya smenoi polyarnosti toka v usloviyakh gibridnoi tekhnologii elektrokhimicheskoi obrabotki korrozionnostoikikh stalei [Investigation of the process of automatic control of current polarity reversal in the conditions of hybrid technology of electrochemical processing of corrosion-resistant steels]. Obrabotka metallov (tekhnologiya, oborudovanie, instrumenty) = Metal Working and Material Science, 2020, vol. 22, no. 1, pp. 6–15. DOI: 10.17212/1994-63092020-22.1-6-15. 33. Mamadaliev R.A., Bakhmatov P.V., Martyushev N.V., Skeeba V.Yu., Karlina A.I. Infl uence of welding regimes on structure and properties of steel 12KH18N10T weld metal in diff erent spatial positions. Metallurgist, 2022, vol. 65 (11–12), pp. 1255–1264. DOI: 10.1007/s11015-022-01271-9. 34. Balanovskiy A.E., Astafyeva N.A., Kondratyev V.V., Karlina A.I. Study of mechanical properties of C-MnSi composition metal after wire-arc additive manufacturing (WAAM). CIS Iron and Steel Review, 2021, vol. 22, pp. 66–71. DOI: 10.17580/cisisr.2021.02.12.
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