:: Artigo completo: https://doi.org/10.1590/0104-9224/SI27.12
Abstract:
Welding operations are one of the most important operations during pipeline construction and most are still carried out manually with SMAW. The challenges associated with the automation of orbital welding are related to several variables, including the weld pool behavior in vertical and overhead positions, monitoring of parameters and metal transfer, bevel preparation and orbital welding head control. In order to achieve a 360º orbital root pass with GTAW process, this study was focused on evaluating the influence of the arc voltage control (AVC) system for pulsed current process, the bevel geometry and filler wire insertion technique on the welding process and weld bead. Experiments were carried out using 16” ASTM A36 pipes with ½” wall thickness and an automated orbital welding head. The results show that the AVC control must be appropriate for the current mode applied (pulsed or constant) in order to avoid arc length oscillation. Also, the counterboring operation during the bevel preparation increases the amount of material of the groove land and promotes less penetration. Regarding the metal transfer, the continuous bridge transfer mode is recommended for automated orbital GTAW welding and this is achieved with an appropriate AVC control method and filler wire positioning.
Key-words: GTAW; Orbital welding; Roots pass; AVC; Bevel geometry.
Reference:
PIGOZZO, I.O.; SILVA, R.H.G.; WALLERSTEIN, D.. On orbital GTA root-pass welding: evaluation of AVC performance, bevel geometry influence and wire feed technique. Soldagem & Inspeção. 2022;27:e2712. https://doi.org/10.1590/0104-9224/SI27.12