A Study of the Intermetallic Compound Growth in Flip-Chip Packages under Thermal Loading

C. Xu, Z. Zhong, W. Choi
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Abstract

 The intermetallic compound layers in solder bumps have the brittle feature and can easily fracture under thermal or mechanical loading. Therefore, the intermetallic compound is an issue for the fracture reliability of the solder bumps. In this work, the intermetallic compound growth before and after high temperature storage tests was investigated. The experiment results revealed that the solder bumps with nickel layers could reduce the intermetallic compound growth rate. The nickel layer, which was added in between Cu and SnAg for top solder bumps, was an important factor controlling the intermetallic compound thickness. It was hard to tell the intermetallic compound thickness at time zero; at the time of 147 hours, the intermetallic compound grew to 3.25 µm; at the time of 294 hours, the intermetallic compound grew to 5.25 µm. However, the solder joints were still in good condition.
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热负载下倒装封装中金属间化合物生长的研究
焊点中的金属间化合物层具有脆性,在热载荷或机械载荷下容易断裂。因此,金属间化合物是影响焊点断裂可靠性的一个问题。本文研究了高温贮藏前后金属间化合物的生长情况。实验结果表明,带镍层的钎料凸起可以降低金属间化合物的生长速率。在Cu和SnAg之间添加的镍层是控制金属间化合物厚度的重要因素。在时间为0时,很难判断金属间化合物的厚度;在147小时时,金属间化合物生长到3.25µm;294小时时,金属间化合物长至5.25µm。然而,焊点仍然处于良好状态。
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