低含量Ni掺杂对SAC焊点组织和可靠性的影响

Zhenqing Zhao, Lei Wang, Xiaoqiang Xie, Qian Wang, Jaisung Lee
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引用次数: 13

摘要

本文研究了SAC钎料中Ni掺杂对BGA焊点微结构行为的影响。选择Sn3.0Ag0.5Cu、Sn1.0Ag0.5Cu和Sn1.0Ag0.5Cu0.02Ni三种焊料成分,考察Ni掺杂、OSP和Au/Ni焊盘对PCB侧焊接效果的影响。重点研究了低浓度Ni掺杂对接头组织和可靠性的影响。焊料成分和PCB表面光光度对界面微观结构均有显著影响,界面俯视图分析表明,添加Ni可使一次回流后的焊料/NiAu焊盘界面形成针状NiCuSn IMC,并使其局部晶粒尺寸减小,而对焊料/OSP焊盘的IMC演变无明显影响,从冶金学角度对该现象进行了研究。通过弯曲和跌落试验来评价焊料成分和焊盘光洁度对接头可靠性的影响。结果表明,在采用NiAu焊盘的情况下,降低SAC焊料中Ag浓度和Ni的添加量可以显著提高跌落测试性能。在弯曲试验中,OSP衬垫表现出比Au/Ni衬垫更好的性能。详细讨论了节理组织与节理可靠性的关系。该工作对电子封装中焊料合金的设计和焊面的选择具有一定的指导意义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The influence of low level doping of Ni on the microstructure and reliability of SAC solder joint
In this paper, the behavior of BGA solder joints microstructures was studied as a function of Ni doping in SAC solder. Three kinds of solder compositions were selected including Sn3.0Ag0.5Cu, Sn1.0Ag0.5Cu and Sn1.0Ag0.5Cu0.02Ni to value the influence the effect of Ni doping, OSP and Au/Ni pad was employed on the PCB side. Emphasis was placed on studying the effect of low level doping with Ni on the joint microstructure and subsequent reliability. Both solder composition and PCB surface finish had a notable effect on the interfacial microstructure, the Ni addition can give rise to needle like NiCuSn IMC formation and reduce the grain size locally at solder/NiAu pad interface after one time reflow according to top-view interface analysis, and had no obvious effect on the IMC evolution of solder/OSP pad, the phenomena was investigated from the perspective of metallurgy. Bending and drop tests were conducted to evaluate the effect of solder composition and pad finish on the joint reliability. It was found that the decrease of Ag concentration and Ni addition in SAC solder could significantly improve the drop test performance when NiAu pad was used. In bending test, OSP pad show better performance than Au/Ni pad. The correlation between joint microstructure and joint reliability was discussed in detail. The work can give some directions on the solder alloy design and choice of pad finish in electronic packaging.
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