Shear property and microstructure evaluation of Pb-free solder bumps under room temperature and multiple reflow/high temperature aging

Proceedings International Symposium on Advanced Packaging Materials Processes, Properties and Interfaces (IEEE Cat. No.01TH8562) Pub Date : 2001-03-11 DOI:10.1109/ISAOM.2001.916600

Li Li, Jin-wook Jang, B. Allmen

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引用次数: 17

Abstract

In this study, bump shear and microstructure evaluations have been performed to characterize Sn-3.5Ag, Sn-3.8Ag-0.7Cu, and Sn-0.7Cu, along with eutectic Sn37Pb. Bump shear strengths were monitored during room temperature aging up to 1000 hrs, and during high temperature storage at 125, 150, and 170/spl deg/C up to 1000 hrs after two and 10 reflows. All bump shear failures were through the solder, indicating that the bump structure interfaces all have good adhesion. Different shear strength was observed with respect to solder alloy composition. At room temperature, the shear strength of eutectic Sn37Pb decreased by 25% after 51 days aging after reflow while the shear strength of all the Pb-free alloys decreased slightly by 5-8%. Microstructure evolution with aging time was observed and correlated to shear strength change at room temperature. The shear strength of both Sn-3.5Ag and Sn-3.8Ag-0.7Cu solders became lower after two reflows but were not affected up to 10 reflows. The shear strength of Sn-37Pb and Sn-0.7Cu solder had no change after either multiple reflows or high temperature storage. Solder bump microstructure under these conditions was characterized. Chemical reactions between solders and under-bump metallurgy (UBM) interactions during multiple reflows and high temperature storage were also investigated. Sn-37Pb solder consumed less Cu UBM than all other Pb-free solders during reflow. However, it consumed more Cu after solid state annealing. An optimal Pb-free alloy (Sn-0.7Cu) is proposed based on this study and previously reported mechanical property and thermal fatigue reliability evaluations for flip chip solder joints.

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室温和多次回流/高温时效下无铅焊点的剪切性能及组织评价

在本研究中，对Sn-3.5Ag、Sn-3.8Ag-0.7Cu和Sn-0.7Cu以及共晶Sn37Pb进行了碰撞剪切和微观结构评价。在室温时效至1000小时，以及在125、150和170度/spl℃高温储存至1000小时后进行2次和10次回流时，对碰撞剪切强度进行了监测。所有碰撞剪切破坏均通过焊料，说明碰撞结构界面具有良好的附着力。焊料合金成分不同，抗剪强度也不同。室温下，回流时效51 d后，共晶Sn37Pb合金的抗剪强度下降了25%，而无pb合金的抗剪强度略有下降，降幅为5-8%。在室温下观察到组织随时效时间的演变，并与抗剪强度变化相关。Sn-3.5Ag和Sn-3.8Ag-0.7Cu钎料的抗剪强度在回流2次后均有所降低，但回流10次后不受影响。Sn-37Pb和Sn-0.7Cu钎料经过多次回流和高温储存后，其抗剪强度没有变化。对这些条件下的凸点组织进行了表征。在多次回流和高温贮存过程中，还研究了焊料之间的化学反应和凹凸下冶金(UBM)相互作用。在回流过程中，Sn-37Pb焊料比所有其他无铅焊料消耗更少的Cu UBM。而经过固态退火后，Cu的消耗量增加。基于该研究和先前报道的倒装焊点力学性能和热疲劳可靠性评估，提出了一种最佳的无铅合金(Sn-0.7Cu)。

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 International Symposium on Advanced Packaging Materials Processes, Properties and Interfaces (IEEE Cat. No.01TH8562)

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