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Properties of Cu/Zn+15%SAC0307+15%Cu/Al joints by different ultrasonic-assisted degrees

焊接 材料科学 微观结构 接头(建筑物) 超声波传感器 复合材料 抗剪强度(土壤) 冶金 断裂(地质) 形态学(生物学) 剪切(地质) 结构工程 物理 工程类 生物 土壤科学 土壤水分 遗传学 环境科学 声学
作者
Tian Huang,Guisheng Gan,Cong Liu,Peng Ma,Yongchong Ma,Zheng Tang,Dayong Cheng,Xin Liu,Kun Tian
出处
期刊:Microelectronics International [Emerald Publishing Limited]
卷期号:40 (2): 70-80 被引量:3
标识
DOI:10.1108/mi-08-2022-0154
摘要

Purpose This paper aims to investigate the effects of different ultrasonic-assisted loading degrees on the microstructure, mechanical properties and the fracture morphology of Cu/Zn+15%SAC0307+15%Cu/Al solder joints. Design/methodology/approach A new method in which 45 μm Zn particles were mixed with 15% 500 nm Cu particles and 15% 500 nm SAC0307 particles as solders (SACZ) and five different ultrasonic loading degrees were applied for realizing the soldering between Cu and Al at 240 °C and 8 MPa. Then, SEM was used to observe and analyze the soldering seam, interface microstructure and fracture morphology; the structural composition was determined by EDS; the phase of the soldering seam was characterized by XRD; and a PTR-1102 bonding tester was adopted to test the average shear strength. Findings The results manifest that Al–Zn solid solution is formed on the Al side of the Cu/SACZ/Al joints, while the interface IMC (Cu 5 Zn 8 ) is formed on the Cu side of the Cu/SACZ/Al joints. When single ultrasonic was used in soldering, the interface IMC (Cu 5 Zn 8 ) gradually thickens with the increase of ultrasonic degree. It is observed that the proportion of Zn or ZnO areas in solders decreases, and the proportion of Cu–Zn compound areas increases with the variation of ultrasonic degree. The maximum shear strength of joint reaches 46.01 MPa when the dual ultrasonic degree is 60°. The fracture position of the joint gradually shifts from the Al side interface to the solders and then to the Cu side interface. Originality/value The mechanism of ultrasonic action on micro-nanoparticles is further studied. By using different ultrasonic loading degrees to realize Cu/Al soldering, it is believed that the understandings gained in this study may offer some new insights for the development of low-temperature soldering methodology for heterogeneous materials.
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