Effects of intermetallic compounds on properties of Sn-Cu lead-free soldered joints

Proceedings of 2005 International Conference on Asian Green Electronics, 2005. AGEC. Pub Date : 2005-03-15 DOI:10.1109/AGEC.2005.1452342

M.N. Islam, Y. Chan, M. O. Alam

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引用次数: 3

Abstract

The environmentally conscious manufacturer is moving toward 'green products' for electronic devices and components. In this paper we investigate the interfacial reactions of Sn0.7Cu solder on electrolytic Ni layer for extended times reflow. It is found that during as-reflowed, the formation of Cu-rich Sn-Cu-Ni ternary intermetallic compounds (TIMC) at the interface of Sn0.7Cu solder with electrolytic Ni is much quicker, resulting in the entrapment of some Pb (which is present (about 0.02wt%) as impurity in the Sn-Cu solder) rich phase in the TIMC. During extended time of reflow, high (>30at %), medium (30-15at %) and low (<15at %) Cu TIMC are formed at the interface. Cu-rich TIMC have higher growth rate and consume more Ni layer. Less than 3 micron of the electrolytic Ni layer was consumed during molten reaction by the higher Sn-containing Sn0.7Cu solder in 180 minutes at 250/spl deg/C. The shear strength of Sn0.7Cu solder joint is stable from 1.982-1.861 kgf during extended time reflow. Cu prevents the resettlement of Au at the interface. The shear strength does not depend on the thickness of intermetallic compounds (IMC) and reflow time. Ni/Sn-Cu solder system has higher strength and can be used during prolonged reflow.

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金属间化合物对Sn-Cu无铅焊点性能的影响

这家具有环保意识的制造商正朝着电子设备和组件的“绿色产品”迈进。本文研究了Sn0.7Cu焊料在电解Ni层上长时间回流时的界面反应。结果表明，在回流过程中，在Sn0.7Cu钎料与电解Ni的界面处，富cu的Sn-Cu-Ni三元金属间化合物(TIMC)的形成速度要快得多，导致部分Pb(以杂质形式存在于Sn-Cu钎料中，约为0.02% wt%)在TIMC中被包裹。随着回流时间的延长，在界面处形成了高(30at %)、中(30-15at %)和低(<15at %)的Cu TIMC。富cu的TIMC具有更高的生长速率和更多的Ni层消耗。高含锡Sn0.7Cu焊料在250/spl℃的温度下，在180分钟的熔融反应过程中，电解Ni层的损耗小于3微米。延长回流时间后，Sn0.7Cu焊点的抗剪强度稳定在1.982 ~ 1.861 kgf之间。Cu阻止Au在界面处的重新安置。剪切强度与金属间化合物(IMC)的厚度和回流时间无关。Ni/Sn-Cu钎料体系具有较高的强度，可长时间回流使用。

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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Proceedings of 2005 International Conference on Asian Green Electronics, 2005. AGEC.

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