Effect of isothermal aging on interfacial IMC growth and fracture behavior of SnAgCu/Cu soldered joints

Xiaoyan Li, Xiaohua Yang, Fenghui Li
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引用次数: 9

Abstract

The reliability of lead free electronic devices depends strongly on the reliability of the soldered joints while the later one was controlled, mainly, by the formation and growth of the interfacial intermetallic compounds (IMCs) between the solder matrix and the substrates. The morphological features, microstructural evolutions and growth kinetics of the IMCs on the interfacial of SnAgCu/Cu soldered joints, under as soldered and isothermal aging condition, were investigated. The three-dimensional IMCs feature was explored by etch the solder matrix out of the SnAgCu/Cu interface. The phases of IMCs were identified by energy dispersive X-ray (EDX). The thickness of the IMCs was measured by element mapping and phase constitution analysis. The SnAgCu/Cu soldered joints were isothermal aged at 125C, 150C and 175C respectively. The corresponding IMCs growth rate was formulated according to the data from various aging time. The growth kinetic of the IMCs was analyzed in the framework of diffusion principles. The tensile strength of the joint was evaluated by in-situ tensile test and the fracture mechanism was analyzed in accordingly. It was found that Cu6Sn5 was formed at the solder and Cu interface during reflowing. With the increase of aging time, the grain size of the interfacial Cu6Sn5 increased and its morphology was changed from scallop-like to needle-like and then to rod-like and finally to particles. The rod-like Ag3Sn phase was formed at the interface of solder and Cu6Sn5 layer with the increase of the aging time. The growth of the IMCs was found follows Arrheniuspsilas diffusion model and the corresponding diffusion factor and active energy were obtained by data fitting. The IMCs growth rate was found increases with the increase of the aging temperature. The fracture site of the soldered joints was changed from the solder matrix to the interfacial Cu6Sn5 layer with the increase of the aging time.
等温时效对SnAgCu/Cu钎料界面IMC生长及断裂行为的影响
无铅电子器件的可靠性在很大程度上取决于焊接接头的可靠性,而焊接接头的可靠性主要由钎料基体与衬底之间的界面金属间化合物(IMCs)的形成和生长控制。研究了焊接和等温时效条件下SnAgCu/Cu焊接接头界面IMCs的形态特征、显微组织演变及生长动力学。通过在SnAgCu/Cu界面上蚀刻焊料基体,探索了三维IMCs特征。用能量色散x射线(EDX)鉴定了IMCs的物相。通过元素映射和相构成分析测量了IMCs的厚度。SnAgCu/Cu焊点分别在125℃、150℃和175℃进行等温时效处理。根据不同老化时间的数据,推导出相应的IMCs生长速率。在扩散原理的框架下,分析了IMCs的生长动力学。通过现场拉伸试验对接头的抗拉强度进行了评价,并对接头断裂机理进行了分析。结果表明,回流过程中钎料与Cu界面处形成Cu6Sn5。随着时效时间的延长,界面Cu6Sn5晶粒尺寸增大,形貌由扇贝状→针状→棒状→颗粒状。随着时效时间的延长,钎料与Cu6Sn5层界面处形成棒状的Ag3Sn相。通过数据拟合得到了相应的扩散因子和活性能。随着时效温度的升高,IMCs的生长速率增大。随着时效时间的延长,焊缝的断裂部位由钎料基体变为Cu6Sn5界面层。
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