摘要
为了解决多丝埋弧焊大线能量焊接导致的高钢级管线钢焊缝及热影响区金相组织粗化、力学性能脆化的问题,设计了焊接线能量较低的双细丝并联多丝埋弧焊接工艺,在该工艺下进行了焊接试验,并在相同焊接环境下与常规粗丝四丝埋弧焊工艺进行了对比。结果表明,双细丝并联多丝埋弧焊工艺比常规粗丝四丝埋弧焊工艺焊接线能量降低约27%,显著改善了焊缝及热影响区的低温冲击韧性,两种焊接工艺下焊接接头抗拉强度的变化不大。
In order to solve the problem of microstrueture coarsening, mechanical property embrittlement of high grade pipeline steel caused by multi-wire submerged arc welding high linear energy welding, the double filaments parallel multi-wire submerged arc welding process with low welding input energy was designed. The welding test was carried out by using this process, and compared with the conventional coarse-wire four-wire submerged arc welding process under the same welding environment. Compared with conventional coarse wire four wire submerged arc welding process, the welding linear energy of double filaments parallel multi-wire submerged arc welding technology reduced about 27%, significantly improved the low temperature impact toughness of weld and heat affected zone, and the tensile strength of two kinds of welding process welded joint does not change significantly.
作者
赵波
付绪宏
王景科
侯树林
付彦宏
杨玮玮
ZHAO Bo FU Xuhong WANG Jingke HOU Shulin FU Yanhong YANG Weiwei(CNPC Bohai Equipment Steel Pipe Design Research Institute ,Qingxian 062658,Hebei,China CNPC Bohai Equipment Julong Steel Pipe Co., Ltd., Qingxian 062658 ,Hebei,China Sinopec Pipeline Storage and Transportation Company,Xuahou 221000,J/angsu, China)
出处
《焊管》
2017年第9期25-29,共5页
Welded Pipe and Tube
关键词
焊接
埋弧焊
单电源双丝并联
低线能量
多丝埋弧焊
低温韧性
welding
submerged arc welding
single power source twin-arc parallel
low linear energy
multi-wire submerged arc welding
low temperature toughness