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Exploring the impact of wire core diameter on microstructure and joint properties in ultrasonic wire harness welding

焊接 微观结构 材料科学 芯(光纤) 接头(建筑物) 超声波传感器 拉丝 超声波焊接 复合材料 冶金 机械工程 结构工程 声学 工程类 物理
作者
Yongqi Zhang,Lun Zhao,Zhonghua Shen,Zeshan Abbas,Tao Gong,Wei Chen,Long Xu,Vivek Patel,Md Shafiqul Islam
标识
DOI:10.1177/14644207241262863
摘要

The present study investigates ultrasonic metal welding to manufacture 10 mm 2 copper (Cu) wire joints with different core diameters. The primary purpose of this study is to explore the influence of wire core diameter on the performance of ultrasonic welded joints. Wire core diameter is positively correlated with the peeling resistance of the joint. Superior mechanical properties of the joint are achieved with an increased diameter of the wire core. The peeling strength of the welded joint of two wires with a wire core diameter of 0.25 mm reaches 306.8 N. Examining the welding temperature and assessing the joint's porosity reveals a significant impact of temperature on porosity. However, relying solely on porosity as a criterion for judging the overall forming quality of joints may be insufficient. Scanning electron microscope and energy-dispersive X-ray elemental analysis revealed that certain wires underwent plastic deformation at elevated temperatures without attaining atomic bonding. Additionally, the welded joint exhibits a compact structure externally and a more relaxed structure internally. The upper side of the joint in contact with the briquette and the lower side in contact with the welding head exhibit minimal gaps, while numerous gaps are evident in the middle of the joint. Furthermore, upon examining the fracture morphology, two distinct failure modes are identified at the joint surface of the conductor. The first involves the fracture of the wire core with a completely separated joint surface, resulting in poor mechanical properties of the joint. The second mode entails the ductile fracture of the wire core at the joint surface, indicating good mechanical properties of the joint.

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