Microstructure and mechanical behavior of Sn15Bi-xAg\Cu solder joints during isothermal aging

焊接 等温过程 微观结构 材料科学 冶金 复合材料 热力学 物理
作者
Fengjiang Wang,Dapeng Yang,Guoqing Yin
出处
期刊:Soldering & Surface Mount Technology [Emerald Publishing Limited]
标识
DOI:10.1108/ssmt-10-2023-0058
摘要

Purpose This paper aims to focus on the reliability of Sn15Bi– x Ag and Sn15Bi– x Cu solder joints during isothermal aging. Design/methodology/approach The effects of Ag or Cu additions on the microstructure, interfacial metallic compound layer and shear strength of Sn–15Bi (Sn15Bi) based solder joints during were investigated. The effects of Ag or Cu additions on the microstructure and tensile properties of Sn15Bi-based bulk solders were also investigated to provide a comprehensive analysis. The interfacial morphology and microstructure were observed by scanning electron microscopy and the composition in the structure was examined by energy dispersive spectrometer. The shear tests were carried out on the as-soldered and as-aged joints using a ball shear tester. Findings The results revealed that by adding Ag or Cu, the microstructure of Sn15Bi solder can be refined. Ag addition increased the tensile strength of Sn15Bi solder but had little effect on elongation. However, Cu addition decreased the tensile strength and elongation of Sn15Bi solder. For solder joints, Ag addition increased the shear strength and toughness of Sn15Bi/Cu joints but Cu addition decreased the shear strength and toughness of Sn15Bi/Cu joints. Originality/value The authors can potentially provide a replacement for Sn40Pb traditional solder with Sn15Bi solder by alloying Ag or Cu due to its lower cost and similar melting point as Sn–Pb solder.
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