Failure mode analysis of lead-free solder joints under differential reflow profiles by high speed impact testing

C.Y. Lin, Y. Chen, G. Shen, D. Liu, C. Kuo, C.L. Hsu
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引用次数: 1

Abstract

The aim of this research is to investigate the mechanical behavior of lead-free solder for high speed impact. A high speed impact test was set up to measure the solder joint reliability. Differential impact speed and room temperature aging effect has been studied with Ni/Au substrate. Furthermore, two different solder alloys (96.5Sn-3Ag-0.5Cu, 98.5Sn-1Ag-0.5C) and three different reflow profiles are considered. This paper focuses on failure mode analysis and investigates the failure characteristics of lead-free solder joints, 96.5Sn-3Ag-0.5Cu and 98.5Sn-1Ag- 0.5C, which are aging at room temperature, respectively, then those solder are impacted at shear rates of 0.3 m/s and 1.0 m/s. Four types of failure mode are found in this high speed impact testing result. Mode M1 is the fracture around the interface but not remain the solder on pad. Mode M2 is fracture around the interface and remained the solder on pad. Mode M3 is fracture across the solder ball. Mode M4 is fracture on the substrate with lift the pad. The aging time could increase the interfacial strength, therefore the percentage of M3 and M4 mode failures increases in Ni/Au substrate. According the results, we find that in reflow profile A and reflow profile C, the failure percentage of Mode M2 is increasing; in reflow profile B, the failure percentage of Mode M3 and Mode M4 are large than Mode M1 and Mode M2.The failure mode M2 is the majority in solder alloy 96.5Sn-3Ag- 0.5Cu, and the failure mode M2 and M3 are the majority in solder alloy 98.5Sn-1Ag-0.5C.
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用高速冲击试验分析不同回流工况下无铅焊点的失效模式
本研究的目的是研究无铅焊料在高速冲击下的力学行为。建立了高速冲击试验来测试焊点的可靠性。研究了镍/金基体的不同冲击速度和室温时效效应。此外,还考虑了两种不同的钎料合金(96.5Sn-3Ag-0.5Cu, 98.5Sn-1Ag-0.5C)和三种不同的回流曲线。本文对96.5Sn-3Ag-0.5Cu无铅焊点和98.5Sn-1Ag- 0.5C无铅焊点进行了失效模式分析,研究了在室温时效过程中,以0.3 m/s和1.0 m/s剪切速率冲击无铅焊点的失效特征。在高速冲击试验结果中发现了四种失效模式。模式M1是界面周围的断裂,但焊盘上的焊料不保留。模式M2是在界面周围断裂,焊盘上保留焊料。模式M3是通过焊料球的断裂。模式M4是基板上的断裂与提升垫。时效时间增加了Ni/Au基体的界面强度,导致M3和M4模式失效的比例增加。结果表明,在回流曲线A和回流曲线C中,M2模式的失效率逐渐增大;在回流剖面B中,M3和M4模式的失效率大于M1和M2模式。96.5Sn-3Ag- 0.5Cu钎料合金中失效模式M2居多,98.5Sn-1Ag-0.5C钎料合金中失效模式M2和M3居多。
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