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2020 №08 (06) DOI of Article
10.37434/as2020.08.07
2020 №08 (08)


Avtomaticheskaya Svarka (Automatic Welding), #8, 2020, pp. 45-50

Use of magnetic pulse welding for joining plates from similar and dissimilar alloys

M.A. Polieshchuk, I.V. Matveiev, V.O. Bovkun, L.I. Adeeva, A.Yu. Tunik


E.O. Paton Electric Welding Institute of the NAS of Ukraine. 11 Kazymyr Malevych Str., 03150, Kyiv, Ukraine. E-mail: office@paton.kiev.ua

In the work the current state is analyzed and the relevance of investigations of the process of magnetic pulse welding of flat parts from similar and dissimilar metals is confirmed. The results of investigations of possibility of realization of magnetic pulse welding of flat specimens on the modified serial installation N-126A by means of experimental pancake rectangular inductor are given. The scheme of the process is given. The technology of producing joints of flat metal parts with a thickness of 1.0...1.5 mm from similar materials from aluminum A5N and AMg2 alloys, as well as from dissimilar – copper, A5N and AMG2 alloy with stainless steel 12Kh18N10T (hardened) is described. The carried out metallographic examinations showed that common for magnetic pulse welding of similar and dissimilar metals is a specific joining of welding plates in the areas equidistant from the center of the flat coil of the inductor. The thickness of the moving plates decreases, and the microhardness in the welding zones increases. The quality welding was fixed within the two-zone shape of joining. The quality of the welded joint was evaluated by the results of mechanical strength tests. 10 Ref. 1 Tabl., 9 Fig.
Keywords: magnetic pulse welding, cold welding, solid state welding, microstructure, microhardness

Received: 07.05.2020

References

1. https://app.aws.org/wj/supplement/WJ_2015_08_s257.pdf
2. Miranda, R.M., Tomás, B., Santos, T.G., Fernandes, N. Magnetic pulse welding on the cutting edge of industrial applications. http://www.scielo.br/pdf/si/v19n1/a09v19n1.pdf https://doi.org/10.1590/S0104-92242014000100009
3. Dana: Magnetic-pulse welding. November 06, 2000. https://europe.autonews.com/article/20001106/ANE/11060872/dana-magnetic-pulse-welding
4. The next wave in manufacturing. Solid state cold welding. Automotive industries. October, 2007. http://www.ai-online. com/Adv/Previous/show_issue.php?id=1982
5. André Cereja et al. The JOIN`EM Project: How to join dissimilar metals with electromagnetic welding. https://www.machinedesign.com/mechanical/join-em-project-how-join-dissimilar-metals-electromagnetic-welding, http://join-em.eu/
6. Program Horizon 2020. https://ec.europa.eu/programmes/horizon2020/en
7. Zhang, Y., L`Eplattenier, P., Daehn, G.S., Babu, S. (2009) Numerical simulation and experimental study for magnetic pulse welding process on AA6061-T6 and Cu101 sheet. ASM International, 715-720.
8. Aizawa T., Okogawa K., Yoshizawa M., Henmi N. (2001) Impulse magnetic pressure seam welding of aluminium sheets. Impact Eng. Appl., 827-32.
9. Aizawa, T. (2004) Methods for electromagnetic pressure seam welding of Al/Fe sheets. Weld. Int., 18, 11, 868-72. https://doi.org/10.1533/wint.2004.3346
10. Kore, S.D., Date, P.P., Kulkarni, S.V. (2007) Effect of process parameters on electromagnetic impact welding of aluminum sheets. International J. of Impact Engineering, 34, 1327-1341. https://doi.org/10.1016/j.ijimpeng.2006.08.006

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