Wetting kinetics, spreading phenomena and interfacial reaction of Sn-15Bi-xZn solders on Cu substrate at different temperatures
Soldering & Surface Mount Technology
ISSN: 0954-0911
Article publication date: 5 June 2023
Issue publication date: 30 June 2023
Abstract
Purpose
This study aims to analyze the wettability of the self-developed Sn–Bi–Zn solder and to conduct a series of analysis on the wetting kinetics, diffusion phenomenon and interfacial reaction of Sn–Bi–Zn solder on Cu substrate.
Design/methodology/approach
The wetting kinetics, diffusion phenomenon and interfacial reaction of Sn–Bi–Zn solder on Cu substrate were analyzed by experiments. The interface was observed by scanning electron microscope to study the effect of Zn content on its interface.
Findings
With the increase in brazing temperature, the final spreading equivalent radius of the solder increases significantly, and the final contact angle of the solder decreases significantly. In addition, when the Zn content is 1%, the spreading effect of solder is the best, the equivalent radius is the largest and the contact angle is the smallest. According to the microstructural analysis, the thick intermetallic compounds layer of the Sn–15Bi–xZn solders on the Cu substrate can be effectively decreased by adding appropriate Zn content.
Originality/value
The wetting kinetics, diffusion phenomenon and interfacial reaction of Sn–15Bi–xZn solder on Cu substrate at different temperatures have not been studied yet.
Keywords
Acknowledgements
This work was sponsored by the National Natural Science Foundation of China (52065043), the Central Guidance on Local: Construction of Regional Innovation System-Cross Regional R&D Cooperation Projects (20221ZDH04054), Technology Innovation High Level Talent Project of Double Thousand Plan of Jiangxi Province (jxsq2019201048) and the Project of Chongqing Tongnan Science and Technology Bureau (Tk-2022-15).
Citation
Lin, W., Li, X., Tu, B., Zhang, C. and Li, Y. (2023), "Wetting kinetics, spreading phenomena and interfacial reaction of Sn-15Bi-xZn solders on Cu substrate at different temperatures", Soldering & Surface Mount Technology, Vol. 35 No. 4, pp. 218-230. https://doi.org/10.1108/SSMT-01-2023-0002
Publisher
:Emerald Publishing Limited
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