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Prediction the Melting Characteristics of Self-Shielded Flux Cored arc Welding (FCAW-S) with Exothermic Addition (CuO-Al)

Bohdan Trembach, Oleksii Balenko, Viacheslav Davydov, Вероніка Бречко, Illia Trembach, Oleksii Kabatskyi

20222022 IEEE 4th International Conference on Modern Electrical and Energy System (MEES)27 citationsDOI

Abstract

Implementation of exothermic addition as an additional heat source is one of advanced directions in the arc welding process energy efficiency improvement. Using of exothermic addition (EA) of the CuO-Al system is important because of the large thermal effect as well as the deposited metal additional alloying. In this article, we studied the effect on some melting characteristics of the composition and proportions of the core filler of flux cored wire electrode components. Mathematical models of the melt off rate (MOR), deposited rate (DR), spattering factor (SF) and deposition efficiency (De) dependence on the responders were received as a result of the investigation composition of core filler. Studies have shown that it is necessary to limit the amount of graphite, as well as to limit the introduction of exothermic addition into the core filler EA~35 [wt.%].

Topics & Concepts

Exothermic reactionMaterials scienceWeldingGraphiteFlux (metallurgy)Core (optical fiber)Deposition (geology)Arc weldingMetallurgyShielding gasComposite materialSubmerged arc weldingElectrodeThermodynamicsChemistryPhysical chemistrySedimentPaleontologyPhysicsBiologyDiverse Industrial Engineering TechnologiesEngineering and Environmental StudiesIndustrial Engineering and Technologies