| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 5007704 | Optics and Lasers in Engineering | 2017 | 6 Pages |
â¢Weldability of AA2198 was analyzed using Nd:YAG laser and hybrid laser-arc welding.â¢The influence of heat input on weld pool geometry was surveyed.â¢The macrosection, microhardness and microstructure of the welds were compared.â¢It was found that high laser power accompanied with low arc energy is the best.
This paper surveys the capability of the hybrid laser-arc welding in comparison with lone laser welding for AA2198 aluminum alloy experimentally. In the present research, a continuous Nd:YAG laser with a maximum power of 2000Â W and a 350Â A electric arc were used as two combined welding heat sources. In addition to the lone laser welding experiments, two strategies were examined for hybrid welding; the first one was low laser power (100Â W) accompanied by high arc energy, and the second one was high laser power (2000Â W) with low arc energy. Welding speed and arc current varied in the experiments. The influence of heat input on weld pool geometry was surveyed. The macrosection, microhardness profile and microstructure of the welded joints were studied and compared. The results indicated that in lone laser welding, conduction mode occurred and keyhole was not formed even in low welding speeds and thus the penetration depth was so low. It was also found that the second approach (high laser power accompanied with low arc energy) is superior to the first one (low laser power accompanied with high arc energy) in hybrid laser-arc welding of Al2198, since lower heat input was needed for full penetration weld and as a result a smaller HAZ was created.
