Effect of dynamic wire in the GTAW process

Experimental tests were carried out to evaluate and compare metallic transfer aspects and welding process behavior, in GTAW with dynamic wire feeding in relation to conventional mode (wire insertion in a continuous way with constant speed / steady state). Inconel 625 cladded steel plates were laid o...

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Bibliographic Details
Published in:Journal of materials processing technology 2019-07, Vol.269, p.91-101
Main Authors: Gonçalves e Silva, Régis Henrique, Correa Riffel, Kauê, Pompermaier Okuyama, Marcelo, Dalpiaz, Giovani
Format: Article
Language:English
Subjects:
Continuous wire feeding
Droplets
Electric contacts
Electric wire
Electrodes
Gas tungsten arc welding
GTAW technique
Metallic transfer
Monitoring
Nickel base alloys
Out of position welding
Pulsed current
Steel plates
Superalloys
Vertical orientation
Videography
Wire
Wire oscillation
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Summary:Experimental tests were carried out to evaluate and compare metallic transfer aspects and welding process behavior, in GTAW with dynamic wire feeding in relation to conventional mode (wire insertion in a continuous way with constant speed / steady state). Inconel 625 cladded steel plates were laid out at four main welding positions (overhead, vertical up, vertical down and flat). The metallic transfer analysis was based on wire’s tip monitoring, by means of high speed videography and monitoring of the difference of electric potential between tungsten electrode, wire and plate. Continuous wire feeding resulted in rupture of the contact between wire and puddle, which generated large droplets on the wire’s tip, which transferred in irregular intervals. This fact is a common occurrence mainly out of flat position and incurs in irregularity of metal transfer and of oscillographic behavior. For dynamic wire feeding the amount of molten metal in the wire’ tip (droplet) was minimized and the transfer frequency became regular, rendering a more stable and robust process. Also, the risk of electrode contamination was reduced. The benefits of dynamic feeding were observed for both constant and pulsed current.
ISSN:0924-0136
1873-4774
DOI:10.1016/j.jmatprotec.2019.01.033