2019
DOI: 10.11118/actaun201967010147
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CMT Welding of Titanium and Stainless Steel Using CuSi3 Electrode

Abstract: The article deals with the possibility of a tight permanent joint of X5CrNi 18 - 10 austenitic steel and UNS N50400 titanium. The nuclear and chemical industries are in particular interested in solving this problem. The joining by means of fusion welding has come up against unreliability due to the formation of brittle intermetallic compounds between titanium and iron. The article deals with joining of these two heterogeneous materials by an innovative CMT welding method. CuSi3 soldering electrode was chosen a… Show more

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Cited by 3 publications
(1 citation statement)
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“…Nonconsumable electrode argon-arc surfacing (TIG) was used for this purpose with filler wire of 1.0 mm diameter from the abovementioned bronze (heat input was 350-400 J/mm [24]). It was followed by single-pass arc welding, performed by using consumable steel filler wire ER70S-6 (Ø1.0 mm) with short-circuiting (CMT method, heat input value was close to 200 J/mm [25]). After this, the groove in the layer of Q235 steel (thickness δ = 10 mm) was filled in six passes by pulse metal active-gas arc welding with consumable steel wire ER70S-6 (Ø1.0 mm), close in composition to Q235 steel (P-MAG-pulse metal active gas, heat input of each pass was approximately 300 J/mm [26]).…”
Section: Methodsmentioning
confidence: 99%
“…Nonconsumable electrode argon-arc surfacing (TIG) was used for this purpose with filler wire of 1.0 mm diameter from the abovementioned bronze (heat input was 350-400 J/mm [24]). It was followed by single-pass arc welding, performed by using consumable steel filler wire ER70S-6 (Ø1.0 mm) with short-circuiting (CMT method, heat input value was close to 200 J/mm [25]). After this, the groove in the layer of Q235 steel (thickness δ = 10 mm) was filled in six passes by pulse metal active-gas arc welding with consumable steel wire ER70S-6 (Ø1.0 mm), close in composition to Q235 steel (P-MAG-pulse metal active gas, heat input of each pass was approximately 300 J/mm [26]).…”
Section: Methodsmentioning
confidence: 99%