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2021 №08 (06) DOI of Article
2021 №08 (08)

The Paton Welding Journal 2021 #08
TPWJ, 2021, #8, 33-37 pages

UPE-500 complex for determining welding and technological characteristics of coated electrodes

O.M. Kostin1, O.O. Yaros2, Y.O. Yaros2 and O.V. Savenko3
1Admiral Makarov National University of Shipbuilding 9 Heroiv Ukrainy Prosp., 54025, Mykolaiv, Ukraine. E-mail: kostin.weld@gmail.com
2LLC AMITI 42 Novozavodska Str., 54028, Mykolaiv, Ukraine. E-mail: yaros.amity.mk.ua@gmail.com
3PJSC PlasmaTec 18 Maksymovycha Str., 21036, Vinnytsia, Ukraine. E-mail: alexsv62@gmail.com

The article presents the methodology of quantitative evaluation of welding-technological characteristics of coated electrodes using the UPE-500 complex, which provides a high stability of the control welding process in all spatial positions in the automatic mode. The complex is equipped with the measuring system PicoScope 4444 with the software PicoScope 6 which fix and statistically process high reliability parameters of welding process stability that provides online-control of quality of manufacturing industrial batches of electrodes. 8 Ref., 1 Table, 3 Figures.
Keywords: electrode, melting stability, evaluation methodology, automatic mode

Received 11.05.2021


1. Lankin, Yu.N. (2011) Indicators of stability of the GMAW process. The Paton Welding J., 1, 6‒13.
2. Pokhodnya, I.K. (1990) Metallurgy of arc welding. Processes in arc and melting of electrodes. Kiev, Naukova Dumka [in Russian].
3. Ilyashchenko, D.P. (2017) Influence energy parameters of inverter power sources on structure and properties of permanent joints in manual arc welding: Syn. of Thesis for Cand. of Techn. Sci. Degree. Tomsk, RF [in Russian].
4. Letyagin, I.Yu. (2010) Development of methods of rapid evaluation of arc burning stability and repeated arc ignition in manual arc welding: Syn. of Thesis for Cand. of Techn. Sci. Degree. Perm, PSTU [in Russian].
5. (1974) Technology of electric fusion welding of metals and alloys. Ed. by B.E. Paton. Moscow, Mashinostroenie [in Russian].
6. Zhiznyakov, S.N., Sidlin, Z.A. (2006) Manual arc welding. Materials. Equipment. Technology. Kiev, Ekotekhnologiya [in Russian].
7. Didit Sumardiyanto, Sri Endah Susilowati (2019) Effect of welding parameters on mechanical properties of low carbon steel API 5L shielded metal arc welds. American J. of Materials Sci., 9(1), 15–21.
8. Santhosh, S., Jaganathan, S., Anantha Raman, L., Balmurugan, M. (2018) Experimentation and comparative study of E6013 and E7018 weldments using shielded metal arc welding. Int. J. of Mechanical and Production Engineering Research and Development, 8, 169–174.

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