室温超声键合中 Cu/Sn 固液界面间的超声声化学效应(英文)
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National Natural Science Foundation of China(51175116)

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Sonochemical Effects at the Interface Between Liquid Sn and Solid Cu in Ultrasonic Bonding at Room Temperature
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    摘要:

    文章通过对 Cu/Sn/Cu 互连结构短时间施加超声波实现了 Cu/Cu6Sn5/Cu 或Cu/Cu3Sn/Cu 高性能的焊接接 头。由于超声空化效应的作用 Cu/Sn 固液界面产生了快速元素扩散从而加速了金属间化合物的形成。研究发现, 空化气泡在固液界面附近坍塌会对固相铜界面造成严重的空化腐蚀,并且在液相锡中会形成铜过饱和区导致金属 间化合物的快速形成。值得说明的是,这种室温超声键合所形成的金属间化合物接头具有良好的机械可靠性并且 可实现超高温服役的优势。

    Abstract:

    Homogeneous Cu6Sn5 and Cu3Sn joints were formed in Cu/Sn foil/Cu interconnection system respectively, using ultrasonic bonding process for a short period of 3 seconds at room temperature. This ultrarapid development of full intermetallic compound (IMC) joints required an accelerated interdiffusion kinetics at the interface between liquid Sn and solid Cu which could be wholly attributed to the sonochemical effects induced by acoustic cavitation phenomenon. When bubble collapsed near the liquid/solid interface, excessive cavitation erosion was generated on the solid Cu surface, resulting in supersaturation of Cu in the liquid Sn and hence facilitating the formation of intermetallic phases as chemical reaction products. The resulted intermetallic joints performed high mechanical reliability.

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引文格式
李卓霖,李明雨,肖 勇.室温超声键合中 Cu/Sn 固液界面间的超声声化学效应(英文) [J].集成技术,2014,3(6):23-28

Citing format
LI Zhuolin, LI Mingyu, XIAO Yong. Sonochemical Effects at the Interface Between Liquid Sn and Solid Cu in Ultrasonic Bonding at Room Temperature[J]. Journal of Integration Technology,2014,3(6):23-28

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  • 在线发布日期: 2015-01-07
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