OBRABOTKAMETALLOV Vol. 26 No. 1 2024 20 TECHNOLOGY materialovedenie = Bulletin PNRPU. Mechanical engineering, materials science, 2018, vol. 20, no. 3, pp. 90–105. DOI: 10.15593/2224-9877/2018.3.11. 3. Jatmoko, Hanifah A., Pratama M.A., Rohimsyah F.M. Study of the eff ect GMAW and SMAW welding combination with WAAM method. SPECTA Journal of Technology, 2023, vol. 7 (2), pp. 549–555. DOI: 10.35718/ specta.v7i2.938. 4. Jafari D., Vaneker T., Gibson I. Wire and arc additive manufacturing: opportunities and challenges to control the quality and accuracy of manufactured parts. Materials & Design, 2021, vol. 202, p. 109471. DOI: 10.1016/j. matdes.2021.109471. 5. Henckell P., Gierth M., Ali Y., Reimann J., Bergmann J.P. Reduction of energy input in wire arc additive manufacturing (WAAM) with gas metal arc welding (GMAW). Materials, 2020, vol. 13 (11), p. 2491. DOI: 10.3390/ ma13112491. 6. Razmyshlyaev A.D., Ageeva M.V., Lavrova E.V. Izmel’chenie struktury metalla pri dugovoi naplavke pod vozdeistviem prodol’nogo magnitnogo polya [Refi nement of metal structure in arc surfacing under the eff ect of longitudinal magnetic fi eld]. Avtomaticheskaya svarka = Automatic Welding, 2019, no. 2, pp. 25–28. DOI: 10.15407/ as2019.02.03. (In Russian). 7. Razmyshljaev A.D., Mironova M.V., Leshchenko A.I. Povyshenie kachestva stykovykh soedinenii pri dugovoi svarke v prodol’nom magnitnom pole [Quality increase of butt joints at arc welding in longitudinal magnetic fi eld]. Vestnik Priazovskogo gosudarstvennogo tekhnicheskogo universiteta. Seriya: Tekhnicheskie nauki = Bulletin of the Azov State Technical University. Series: Technical Sciences, 2012, no. 24, pp. 190–196. 8. Mironova M.V. Vliyanie induktsii prodol’nogo magnitnogo polya na proplavlenie osnovnogo metalla pri dugovoi naplavke [Infl uence of longitudinal magnetic fi eld induction on the base metal penetration at arc surfacing]. Vestnik Priazovskogo gosudarstvennogo tekhnicheskogo universiteta. Seriya: Tekhnicheskie nauki = Bulletin of the Azov State Technical University. Series: Technical Sciences, 2012, no. 25, pp. 141–146. 9. Chernykh A.V. Osobennosti plavleniya i dvizheniya elektrodnogo metalla pri dugovoi svarke vo vneshnem postoyannom prodol’nom magnitnom pole [Pecularities of melting and movement of electrode metal at arc welding in external constant longitudinal magnetic fi eld]. Nauchnyi vestnik Voronezhskogo gosudarstvennogo arkhitekturnostroitel’nogo universiteta. Stroitel’stvo i arkhitektura = Scientifi c Herald of the Voronezh State University of Architecture and Civil Engineering. Construction and Architecture, 2012, no. 4 (28), pp. 103–113. 10. RazmyshlyaevA.D., Deli A.A., Mironova M.V. Vliyanie prodol’nogo magnitnogo polya na proizvoditel’nost’ rasplavleniya provoloki pri elektrodugovoi naplavke pod fl yusom [The eff ect of a longitudinal magnetic fi eld on the melting performance of wire during submerged arc welding]. Avtomaticheskaya svarka = Automatic Welding, 2007, no. 6 (650), pp. 31–35. 11. Sharma P., Chattopadhyaya S., Singh N., Kumar A., Sharma S., Li C., Kumar V., Wojciechowski S., Krolczyk G., Eldin S.M. Recent developments in the design, development, and analysis of the infl uence of external magnetic-fi eld on gas-metal arc welding of non-ferrous alloys: review on optimization of arc-structure to enhance the morphology, and mechanical properties of welded joints for automotive applications. Heliyon, 2022, vol. 8 (12), p. e11812. DOI: 10.1016/j.heliyon.2022.e11812. 12. Curiel F.F., García R., López V.H., García M.A., Contreras A., García M.A. The eff ect of applying magnetic fi elds during welding AISI-304 stainless steel on stress corrosion cracking. International Journal of Electrochemical Science, 2021, vol. 16 (3), p. 210338. DOI: 10.20964/2021.03.31. 13. Xiao L., Fan D., Huang J., Tashiro S., Tanaka M. 3D numerical study of external axial magnetic fi eld-controlled high-current GMAW metal transfer behavior. Materials, 2020, vol. 13, p. 5792. DOI: 10.3390/ma13245792. 14. Rosado-Carrasco J., Krupp U., López V., Giertler A., Garcia-Rentería M., González-Sánchez J. Eff ect of a magnetic fi eld applied during fusion welding on the fatigue damage of 2205 duplex stainless steel joints. International Journal of Fatigue, 2018, vol. 121. DOI: 10.1016/j.ijfatigue.2018.12.022. 15. Razmyshlyaev A.D., Ageeva M.V. [The eff ect of a transverse magnetic fi eld on the structure of the seam metal during electric arc welding of steel 12X18H9T]. Innovatsionnye tekhnologii v mashinostroenii [Innovative technologies in mechanical engineering]. Proceedings of the IX International scientifi c and practical conference, Yurga, 24–26 May 2018. Tomsk, TPU Publ., 2018, pp. 8–11. (In Russian). 16. Razmyshlyaev A.D., Yarmonov S.V., Vydmysh P.A. Vliyanie chastoty poperechnogo magnitnogo polya na proizvoditel’nost’ rasplavleniya elektrodnoi provoloki pri dugovoi naplavke pod fl yusom [The eff ect of the frequency of the transverse magnetic fi eld on the melting performance of the electrode wire during submerged arc welding]. Vestnik Priazovskogo gosudarstvennogo tekhnicheskogo universiteta. Seriya: Tekhnicheskie nauki = Bulletin of the Azov State Technical University. Series: Technical Sciences, 2014, no. 28, pp. 140–144.
RkJQdWJsaXNoZXIy MTk0ODM1