Sn-3.5Ag无铅焊料与Cu衬底间金属间化合物的形成与生长

Fifth International Conference onElectronic Packaging Technology Proceedings, 2003. ICEPT2003. Pub Date : 1900-01-01 DOI:10.1109/EPTC.2003.1298751

Yu Daquan, Duan Li-lei, Zhao Jie, Wang Lai

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引用次数: 0

摘要

采用一种新的方法研究了Sn-3.5Ag无铅钎料与Cu衬底界面上金属间化合物(IMC)的形成和生长。采用Memisco(润湿天平，型号ST50)在250℃下制备焊点，焊接时间分别为10sec、30sec、60sec和90sec。实验数据表明，铜和Sn-3.5Ag钎料在焊接过程中IMC的增长对时间的依赖性为1/ sup / 1/3。结果表明，在长达90秒的焊接过程中，晶界扩散是主要的输运机制。在170℃时效至1000h的过程中，IMCs的柱状形貌向更扁平的形态转变。IMC层的生长行为符合t/sup 1/2/方程/spl δ /y/下标i/ (t) = k/下标i/t/sup 1/2/。式中/spl δ /y/sub i/为时效过程中IMC的生长厚度;K /下标i/为时效温度下扩散系数的平方根，t为时效时间。该方程揭示了老化过程中的扩散控制机制。

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The formation and growth of intermetallic compounds between Sn-3.5Ag lead-free solder and Cu substrate

A new method was used to investigate the formation and growth of intermetallic compound (IMC hereafter) formed at the interface between Sn-3.5Ag lead free solder and the Cu substrate. Solder joints were prepared by Memisco (wetting balance, model ST50) at 250/spl deg/C with soldering time of 10sec, 30sec, 60sec and 90sec. Experimental data for IMC growth between copper and Sn-3.5Ag solder during soldering exhibit a t/sup 1/3/ dependence on time. The results indicate that during soldering up to 90 sec, grain boundary diffusion is the predominant mechanism for transport through the layer. During aging at 170/spl deg/C up to 1000h, the columnar morphology of IMCs changed to a more planer type. The growth behavior of IMC layers obeys t/sup 1/2/ equation /spl Delta/y/sub i/ (t) = k/sub i/t/sup 1/2/. Here, /spl Delta/y/sub i/ is the growth thickness of IMC during aging; k/sub i/ is the coefficient standing for the square root of the diffusivity at the aging temperature and t is the aging time. This equation reveals a diffusion-controlled mechanism during aging.

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Fifth International Conference onElectronic Packaging Technology Proceedings, 2003. ICEPT2003.

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