Formation of Sn-Bi alloys through sequential electrodeposition

2012 4th Asia Symposium on Quality Electronic Design (ASQED) Pub Date : 2012-07-10 DOI:10.1109/ACQED.2012.6320493

Lee Seen Fang, A. Haseeb, G. Yingxin

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引用次数: 2

Abstract

The fabrication of near eutectic Sn-Bi alloy can be developed by reflowing a metal stack containing layers of Sn and Bi films. The Sn and Bi metal films are sequentially electroplated using two separate plating baths. Composition control of Sn-Bi alloy can be achieved by manipulating the thickness of constituent metal films. The thickness ratio of Sn to Bi is targeted to be approximately 0.97 to obtain the eutectic composition. Hence, the effect of thickness as a function of time is investigated. The thickness of electroplated layers increased with plating time but a more uniform thickness can be obtained from shorter plating periods. Methane sulphonate acid (MSA) based baths were fabricated for both Sn and Bi plating and the current density used is 20 mA/cm2 and 5 mA/cm2 respectively. Hydroquione (HQ) and gelatin were added into Sn plating solution bath as additives to improve the bath stability. The dual layer metal stack was reflowed at 170°C to enhance the interdiffusion between Sn and Bi layers. Field Emission Scanning Electron Microscope (FESEM) analyses coupled with Energy Disperse X-ray (EDX) analyses test have been performed to investigate the microstructure and composition of Sn-Bi alloy. Homogeneous microstructure of Sn-Bi alloy is obtained after reflow and near eutectic composition Sn- 54.6 wt.%Bi is achieved.

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序贯电沉积法制备Sn-Bi合金

近共晶Sn-Bi合金的制备可以通过再流动含有Sn和Bi薄膜层的金属堆来实现。锡和铋金属薄膜在两个不同的镀液中依次电镀。通过控制组成金属膜的厚度，可以实现对锡铋合金成分的控制。为了得到共晶成分，锡铋的厚度比设定为0.97左右。因此，研究了厚度作为时间函数的影响。镀层厚度随电镀时间的延长而增加，但越短的电镀时间镀层厚度越均匀。制备了基于甲烷磺酸酸(MSA)的锡和铋镀液，使用的电流密度分别为20 mA/cm2和5 mA/cm2。将氢醌(HQ)和明胶作为添加剂加入锡镀液中，以提高镀液的稳定性。双层金属堆在170℃下回流，以增强Sn和Bi层之间的相互扩散。采用场发射扫描电镜(FESEM)和能量分散x射线(EDX)分析方法研究了Sn-Bi合金的显微组织和成分。再流处理后，Sn-Bi合金组织均匀，成分Sn- 54.6%，接近共晶。

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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2012 4th Asia Symposium on Quality Electronic Design (ASQED)

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