Study on fatigue ductility coefficient and life prediction for mixed solder joints under thermal cycle loads

焊接 材料科学 温度循环 冶金 复合材料 延展性(地球科学) 晶界 脆性 扫描电子显微镜 球栅阵列 微观结构 蠕动 热的 物理 气象学
作者
Bin Zhou,Tao Lü,Jincheng You
标识
DOI:10.1109/icrms.2014.7107285
摘要

Lead-free solder ball of PBGA with SnPb solder paste in the weight ratio of 1:0.5 was mounted for mixed soldering experimental sample. Temperature cycling experiment was carried out at -55 °C ~ +125 °C conditions. The event detector was employed to monitor the solder joint failure in realtime in terms of IPC-9701 standard, and the Weibull curve of mixed solder joint failure was established. Thermal fatigue ductility coefficient of mixed solder joints was deduced based on the failure data of solder joints and IPC-SM-785 standard. Moreover, the microstructure and the failure mode of mixed solder joints were analyzed during different thermal cycles using scanning electron microscopy (SEM) and energy dispersive spectroscopy (EDS). The results showed that the thermal fatigue ductility coefficient of mixed solder joints was 0.8306, which is greater than 0.325 of Sn63Pb37 solder joints because of the larger elastic modulus of mixed solder increasing its brittleness. The mixed solder joints cracking in temperature cycling test begin from the lead-rich region in corners. Crack interface presents grain boundary slip characteristics, which suggest the grain boundary dislocations caused by shear stress is still the main reason of solder joints cracking. The growth of IMC layer in mixed solder joints is not sensitive to temperature cycling condition, and there are lead-rich phase, Cu 6 Sn 5 alloys and Ag 3 Sn alloys coexistence inside the mixed solder joints after thermal cycles. Further research for long-term reliability regular data is still needed.

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