Evaporation processes of alloying components duringwire-arcdeposition of aluminum alloy 5056

Additive manufacturing technologies are developing fast world wide. Never the less, in the machine-building industry, manufacturing of especially large products is required, and common processes, for example, selective laser melting, are not able to satisfy this requirement. Multilayer wire-arc depo...

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Veröffentlicht in:IOP conference series. Materials Science and Engineering 2020-02, Vol.758 (1), p.12064
Hauptverfasser: Salomatova, E.S., Kartashev, M.F., Trushnikov, D.N., Permykov, G.L., Olshanskaya, T.V., Abashev, I.R., Fedoseeva, E.M., Koleva, E.G.
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Sprache:eng
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Zusammenfassung:Additive manufacturing technologies are developing fast world wide. Never the less, in the machine-building industry, manufacturing of especially large products is required, and common processes, for example, selective laser melting, are not able to satisfy this requirement. Multilayer wire-arc deposition, allows to make high-quality large-scale products. In addition, the productivity of wire-arc deposition is many times higher than the productivity of powder additive manufacturing. Never the less, the metal obtained by this method is likely to lose easily evaporated alloying elements, which is mainly due to excessive heat and high deposition rates. This process leads to reduced mechanical properties of the deposited metal. The paper presents the results of chemical analysis of the sample obtained by CMT deposition of aluminum alloy 5056.It was revealed that during wire-arc deposition there is evaporation of some alloy components, for example magnesium. A nonlinear theoretical model of nonequilibrium processes in the liquid phase of the deposited metal and the processes of evaporation of chemical easily evaporated elements in the zone of influence of the heating source of wire-arc deposition is presented. Verification of the model was carried out by studying the chemical composition of the samples. During X-ray fluorescence analysis, reduced magnesium content of the first deposited layer was revealed. Increase in the magnesium content was in the upper deposited layers
ISSN:1757-8981
1757-899X
DOI:10.1088/1757-899X/758/1/012064