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2023 №07 (01) DOI of Article
10.37434/tpwj2023.07.02
2023 №07 (03)

The Paton Welding Journal 2023 #07
The Paton Welding Journal, 2023, #7, 16-24 pages

Features of formation and transformation of oxides in flash-butt welding of K76F rails

V.I. Shvets, I.V. Zyakhor, L.M. Kapitanchuk

E.O. Paton Electric Welding Institute of the NASU. 11 Kazymyr Malevych Str., 03150, Kyiv, Ukraine. E-mail: zyakhor2@ukr.net

Abstract
The transformation of oxide inclusions in flash-butt welding (FBW) of К76F rails was studied with the use of the Augermicroprobe JAMP 9500F of «JEOL» company (Japan) with the X-ray energy dispersion spectrometer INCA Penta FET x3 mounted on it and involvement of the most informative methodologies of fractographic analysis. It is shown that hightemperature oxide inclusions without changing the aggregate state are removed as a flash. On the basis of silicon oxides on a molten surface in the welding process, easy fusible iron manganese and in the near-contact layer - manganese silicates are formed. The heterogeneity of silicon distribution is the cause of formation of clusters of silicates and formation of “matt spots” in the near-contact layer. 10 Ref., 7 Fig.
Keywords: flash-butt welding, КF76 rails, silicates, «matt spots»

Received: 22.05.2023
Accepted: 06.09.2023

References

1. Gubenko, S.I., Oshkaderov, S.P. (2016) Nonmetallic inclusions in steel. Kyiv, Naukova Dumka [in Russian].
2. Levchenko, N.V. (2006) Change of nonmetallic inclusions in manufacture of rails. Metallurgicheskaya i Gornorudnaya Promyshlennost, 2, 63-65.
3. Kuchuk-Yatsenko, S.I., Didkovsky, A.V., Shvets, V.I. et al. (2016) Flash-butt welding of high-strength rails of nowadays production. The Paton Welding J., 5-6 (753), 4-12. https://doi.org/10.15407/tpwj2016.06.01
4. Kuchuk-Yatsenko, S.I., Didkovsky, O.V., Bogorsky, M.V. et al. (2002) Method of frash-butt welding. Pat. 46820 Ukraine, Int. Cl. 6 В23К11/04, С2, Publ. 17.06.2002
5. Galakhov, F.Ya. (1991) State diagrams of refractory oxide systems: Refer. book. Leningrad. Nauka [in Russian].
6. Kuchuk-Yatsenko, S., Shvets, V., Didkovsky, A., et al. (2016) Flash-butt welding of high-strength rails. Mining Informatics. Automation and Electrical Engineering, 4(528), 40-48. https://doi.org/10.15407/tpwj2016.06.01
7. Kuchuk-Yatsenko, S.I., Lebedev, V.K. (1976) Flash-butt welding. Kyiv, Naukova Dumka [in Russian].
8. Javojskij, V.I. (1969) Theorie der Stahlerzeugung. VEB Deutscerher Verlag fur Grundstoffindustrie. Leipzig.
9. Aksenova, K.V., Gromov, V.E., Ivanov, Yu.F. et al. (2017) Сarbon redistribution under deformation of steels with bainite and martensite structures. Izvestiya. Ferrous Metallurgy, 60(7), 544-548 [in Russian]. https://doi.org/10.17073/0368-0797-2017-7-544-548
10. TUU 24.1-40075815-002:2016. New welded rails for railways [in Ukrainian].

Suggested Citation

V.I. Shvets, I.V. Zyakhor, L.M. Kapitanchuk (2023) Features of formation and transformation of oxides in flash-butt welding of K76F rails. The Paton Welding J., 07, 16-24.