摘要
为实现某三代核电站屏蔽厂房钢筋穿孔塞焊在一定倾斜角度下的GMAW自动化焊接,提出了一种针对倾斜位置的穿孔塞焊焊缝成形的焊接路径和工艺控制策略。通过试验研究了焊接路径、焊接姿态、焊接气体成分等GMAW工艺因素对穿孔塞焊接头在倾斜位置下的焊缝成形的影响。结果表明,采用360°顺逆交替和细化层道可以有效控制熔池下淌,保证表面余高在2 mm以内;当焊枪工作角θ调整为15°且焊接方向角φ为6°~10°时,电弧力可有效抵消重力的切向分量的影响,有效避免侧壁和层间未熔合缺陷;相较于φ(Ar)98%Ar+φ(O2)2%混合气体,φ(Ar)80%+φ(CO2)20%配比能明显提高熔池金属的表面张力,有助于穿孔塞焊表面及根部焊道成形。
In order to implement the GMAW automatic welding of steel bar piercing plug weld under inclined position in the shielding building of a third generation nuclear power plant,the effects of welding path,welding posture and welding gas selection on weld formation are studied through experi-ments in this paper.The results show that 360 degree alter-nation and refining layers can effectively control the flow of molten pool to ensure the weld reinforcement within 2 mm;When the working angle of the welding gun is adjusted to 15°and the welding direction angle is 6°~10°,the arc force can effectively offset the tangential component of gravity and effectively avoid the lack of fusion for the side-wall and the interpass;compared withφ(Ar)98%+φ(O2)2%mixed gas,φ(Ar)80%+φ(CO2)20%ratio can significantly increase the surface tension of molten pool metal to ensure the quality of weld formation.
作者
修延飞
都婧婧
朱跃德
包明杰
李美琳
XIU Yanfei;DU Jingjing;ZHU Yuede;BAO Mingjie;LI Meilin(Shan Dong Nuclear Power Equipment Manufacturing Company,Haiyang 265118,China;Yantai Nuclear Equipment Engineering Technology and Research Center,Haiyang 265118,China)
出处
《电焊机》
2020年第1期117-120,I0010,I0011,共6页
Electric Welding Machine
基金
国家科技重大专项项目(2017ZX6002008)
关键词
穿孔塞焊
路径规划
GMAW自动焊
焊缝成形
piercing plug welding
path planning
GMAW automatic welding
weld formation