Publication detail
Tandem robotic FCAW welding
SIGMUND, M.
English title
Tandem robotic FCAW welding
Type
journal article in Web of Science
Language
en
Original abstract
This article describes robotic FCAW welding with using tandem torch for welding bearing parts of mobile truck crane. Follow primary objective advantages of tandem welding compared to welding with classical single wire. Mainly in light of welding speed, welding productivity with reference to resulting weld quality. In article isfirstly described comparison of both robotic welding cells and also technologies of production, including technological welding processes for single wire and already mentionedtandem wire robotic welding cell. Secondaryare described modernized robotic welding cell used benefits from tandemtorch with laser off-line sensor servant to searching weld position. Part of tandem robotic welding cell is as well two axis welding positioner. In light of used welding technology we speak about shielded arc welding process with metal flux cored wire.
English abstract
This article describes robotic FCAW welding with using tandem torch for welding bearing parts of mobile truck crane. Follow primary objective advantages of tandem welding compared to welding with classical single wire. Mainly in light of welding speed, welding productivity with reference to resulting weld quality. In article isfirstly described comparison of both robotic welding cells and also technologies of production, including technological welding processes for single wire and already mentionedtandem wire robotic welding cell. Secondaryare described modernized robotic welding cell used benefits from tandemtorch with laser off-line sensor servant to searching weld position. Part of tandem robotic welding cell is as well two axis welding positioner. In light of used welding technology we speak about shielded arc welding process with metal flux cored wire.
Keywords in English
FCAW welding – welding method 138 (is shielded arc welding in active gases with metal flux cored wire), tandemrobot welding, off-line laser senzor.
Released
05.06.2019
Publisher
MM (Modern Machinery) Science Journal
ISSN
1803-1269
Volume
2019
Number
06
Pages from–to
2920–2927
Pages count
3000
BIBTEX
@article{BUT157272,
author="Marian {Sigmund},
title="Tandem robotic FCAW welding",
year="2019",
volume="2019",
number="06",
month="June",
pages="2920--2927",
publisher="MM (Modern Machinery) Science Journal",
issn="1803-1269"
}