Microstructural and mechanical characterization of steel-DP780/Al-5052 joints formed using resistance element welding with concealed rivet cover

Wanyu Cai, Qi Chen, Yijin Wang, S. Dong, P. Luo
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引用次数: 1

Abstract

Resistance element welding (REW) with a concealed rivet cover (Q235) was used to join steel-DP780 and Al-5052. The macroscopic morphology and the microstructure were observed using optical microscopy and scanning electron microscopy. The mechanical properties of the joint were also tested. The results show that the intermetallic compound (IMC) formed at the Q235/Al interface is FeAl3, while the IMCs formed at the DP780/Al interface are Fe2Al5 and FeAl3. The welding current has a significant influence on the nugget size, peak load, average hardness of aluminum heat-affected zone, and the bearing area of the aluminum plate. There are three fracture models of the countersunk rivet REW joint under a tensile-shear force: the interface failure fracture model, the fusion pullout failure fracture model, and the heat-affected zone failure fracture model. At a welding current of 18 kA, the nugget pullout failure mode is observed, and the best mechanical properties of the joint are obtained. The shear resistance of the joint can reach up to 5712 N.
隐藏铆钉盖电阻元件焊接钢- dp780 /Al-5052接头的显微组织和力学性能
采用带隐藏式铆钉盖(Q235)的电阻元件焊接(REW)连接钢- dp780和Al-5052。采用光学显微镜和扫描电镜对其宏观形貌和微观结构进行观察。并对接头的力学性能进行了测试。结果表明:在Q235/Al界面处形成的金属间化合物(IMC)为FeAl3,而在DP780/Al界面处形成的IMC为Fe2Al5和FeAl3;焊接电流对熔核尺寸、峰值载荷、铝热影响区平均硬度和铝板承载面积有显著影响。拉伸-剪切作用下沉钉REW接头有三种断裂模型:界面破坏断裂模型、熔合拉拔破坏断裂模型和热影响区破坏断裂模型。在18 kA的焊接电流下,观察到熔核拔出破坏模式,获得了最佳的接头力学性能。节理抗剪强度可达5712 N。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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