Ni mesh-reinforced ultrasonic-assisted Cu/Sn58Bi/Cu joint performance: Experiments and first-principles calculations

IF 8.7 1区 化学 Q1 ACOUSTICS
Xi Huang , Liang Zhang , Yu-hao Chen , Lei Sun , Xin-quan Yu , Quan-bin Lu
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引用次数: 0

Abstract

The Ni mesh was incorporated into the Cu/Sn58Bi/Cu bonding as a reinforcing skeleton to achieve an enhancement effect analogous to steel reinforcement in concrete. Ultrasonic-assisted soldering (UAS) improved the metallurgical bond among the solder, Ni mesh, and substrate. It facilitated the formation of (Cu, Ni)6Sn5 intermetallic compounds (IMCs) layers, increasing the joint strength. Observations indicated that ultrasonic treatment effectively refined the (Cu, Ni)6Sn5 grains and induced a uniform preferred orientation of β-Sn and Bi grains in the joint matrix adjacent to the Ni mesh. The shear strength of the joint reached 72.23 MPa when the ultrasonic application was sustained for 15 s, achieving the fabrication of a high-strength point with low energy consumption. First-principles calculations have confirmed that changes in the Ni content within (Cu, Ni)6Sn5 IMCs improved the stability of the crystal structure. Furthermore, the variations in content could potentially improve the mechanical and electrical properties of the (Cu, Ni)6Sn5. Enhancements in ultrasonic efficiency and the reinforcement of IMC structures offer new avenues for research in green and high-performance electronic packaging material joining technologies.
镍网加固超声波辅助铜/Sn58Bi/铜接头性能:实验和第一原理计算。
在 Cu/Sn58Bi/Cu 粘合过程中加入了镍网作为加固骨架,以达到类似于混凝土中钢筋的增强效果。超声波辅助焊接(UAS)改善了焊料、镍网和基底之间的冶金结合。它促进了(铜、镍)6Sn5 金属间化合物(IMC)层的形成,提高了接合强度。观察结果表明,超声波处理有效地细化了(Cu, Ni)6Sn5 晶粒,并在镍网附近的接头基体中诱导出均匀的 β-Sn 和 Bi 晶粒优先取向。当超声波持续作用 15 秒时,接头的剪切强度达到 72.23 兆帕,实现了高强度点的低能耗制造。第一性原理计算证实,改变(铜、镍)6Sn5 IMC 中的镍含量可提高晶体结构的稳定性。此外,含量的变化还有可能改善(铜、镍)6Sn5 的机械和电气性能。超声波效率的提高和 IMC 结构的增强为绿色和高性能电子封装材料连接技术的研究提供了新的途径。
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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来源期刊
Ultrasonics Sonochemistry
Ultrasonics Sonochemistry 化学-化学综合
CiteScore
15.80
自引率
11.90%
发文量
361
审稿时长
59 days
期刊介绍: Ultrasonics Sonochemistry stands as a premier international journal dedicated to the publication of high-quality research articles primarily focusing on chemical reactions and reactors induced by ultrasonic waves, known as sonochemistry. Beyond chemical reactions, the journal also welcomes contributions related to cavitation-induced events and processing, including sonoluminescence, and the transformation of materials on chemical, physical, and biological levels. Since its inception in 1994, Ultrasonics Sonochemistry has consistently maintained a top ranking in the "Acoustics" category, reflecting its esteemed reputation in the field. The journal publishes exceptional papers covering various areas of ultrasonics and sonochemistry. Its contributions are highly regarded by both academia and industry stakeholders, demonstrating its relevance and impact in advancing research and innovation.
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