铜/钢角接激光焊工艺和性能研究

任路俊; 蒋宏润; 李广; 石玗; 许有伟; 张晶; 侯旭倩; 王瑞

doi:10.7512/j.issn.1001-2303.2022.11.05

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铜/钢角接激光焊工艺和性能研究
Study on the Process and Performance of Copper/Stainless Steel Fillet Laser Welding
2022年52卷第11期页码：31-36
DOI： 10.7512/j.issn.1001-2303.2022.11.05

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任路俊，蒋宏润，李广，等.铜/钢角接激光焊工艺和性能研究［J］.电焊机，2022，52（11）：31-36.

REN Lujun, JIANG Hongrun, LI Guang, et al.Study on the Process and Performance of Copper/Stainless Steel Fillet Laser Welding[J].Electric Welding Machine, 2022, 52(11): 31-36.
任路俊，蒋宏润，李广，等.铜/钢角接激光焊工艺和性能研究［J］.电焊机，2022，52（11）：31-36. DOI： 10.7512/j.issn.1001-2303.2022.11.05.

REN Lujun, JIANG Hongrun, LI Guang, et al.Study on the Process and Performance of Copper/Stainless Steel Fillet Laser Welding[J].Electric Welding Machine, 2022, 52(11): 31-36. DOI： 10.7512/j.issn.1001-2303.2022.11.05.

摘要

针对铜/钢直连型永久阴极板对其导电性和耐腐蚀性能的较高要求，采用激光不填丝焊接方法研究不同激光功率和预热条件下的铜/钢角接焊接接头的形貌和微观组织。同时测量了接头的名义抗拉强度、电导率及耐腐蚀性能。铜/钢角接头焊缝成形质量随激光功率增大先上升后下降，激光功率3 000 W时预热后的接头焊缝质量最优，接头成形良好，无焊接裂纹，熔合区内球状和枝晶状ε-Cu颗粒相均匀分布在γ相为主的（γ+ε）双相固溶体组织中；不同激光功率下接头的力学性能和电导率均表现为：预热3 000 W>3 000 W>2 000 W>4 000 W；接头铜侧区域更容易腐蚀失效，熔合区中的ε-Cu相易于腐蚀溶解，接头钢侧区域的耐腐蚀性能较好。

Abstract

In order to meet the performance requirements of copper/stainless steel direct-connected permanent cathode plate, laser welding without filler wire is used to study the morphology and microstructure of copper/stainless steel fillet welded joint under different laser power and preheating conditions. The nominal tensile strength, conductivity and corrosion resistance of the joint are also measured. The results show that the weld forming quality of copper/stainless steel joints increases and then decreases with the laser power increases. After preheating with laser power of 3 000 W, the quality of welded joint is optimal, the joint is well formed and no welding cracks. Spherical and dendritic ε-Cu particle phase in fusion zone uniformly distribute in (γ+ε) dual-phase solid solution organization dominated by γ-phase. The mechanical properties and conductivity of joint with different laser power are as follows: preheating with 3 000 W>3 000 W>2 000 W>4 000 W. The copper side area of the joint is more prone to corrosion failure, the steel side area has good corrosion resistance, and the ε-Cu phase in fusion zone is easily corroded and dissolved.

关键词

铜/钢焊接激光焊接力学性能导电性能腐蚀性能

Keywords

copper/stainless steel weldinglaser weldingmechanical propertieselectrical conductivitycorrosion properties

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