中国半导体行业协会封装分会会刊

中国电子学会电子制造与封装技术分会会刊

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电子与封装 ›› 2023, Vol. 23 ›› Issue (3): 030101 . doi: 10.16257/j.cnki.1681-1070.2023.0037

所属专题: 先进三维封装与异质集成

• “先进三维封装与异质集成”专题 • 上一篇    下一篇

Sn晶粒取向对微焊点元素迁移及界面反应的影响*

白天越;乔媛媛;赵宁   

  1. 大连理工大学材料科学与工程学院,辽宁 大连 116024
  • 收稿日期:2022-10-27 出版日期:2023-03-24 发布日期:2023-02-21
  • 作者简介:白天越(1997—),男,山西大同人,博士研究生,主要研究方向为先进封装微互连材料与技术。

Influences ofSn Grain Orientation on Element Migration and Interfacial Reaction in MicroSolder Joints

BAI Tianyue, QIAO Yuanyuan, ZHAO Ning   

  1. School of Materials Scienceand Engineering, Dalian University ofTechnology, Dalian 116024, China
  • Received:2022-10-27 Online:2023-03-24 Published:2023-02-21

摘要: 随着先进电子封装技术的不断发展,电子产品在服役时无铅微焊点内的元素迁移问题引起了广泛关注。由于先进封装互连尺寸的逐步缩小,微焊点扩散的各向异性问题日益凸显,即Sn晶粒取向显著影响元素的迁移行为,进而影响微焊点的界面反应。综述了在热时效、热循环、电流加载与温度梯度等条件下,Sn晶粒取向对焊点中元素迁移及界面反应的影响。现有研究表明,在热时效及热循环条件下,Sn晶粒取向对微焊点元素迁移及界面反应的影响较小,而Sn晶粒取向对微焊点的电迁移和热迁移有着相似的影响规律,并由此产生界面金属间化合物(IMC)的非对称及非均匀生长现象。此外,还综述了基于数值模拟方法开展的微焊点元素扩散各向异性的相关研究,并对不同条件下的研究进展进行了总结。

关键词: 电子封装, 各向异性, 晶粒取向, 元素迁移, 界面反应, 数值模拟

Abstract: With the continuous development of advanced electronic packaging technology, the element migration within lead-free micro solder joints in service of electronic products has attracted a lot of attentions. As the interconnections for advanced packaging are gradually downsizing, diffusion anisotropy has become an increasingly prominent issue for micro solder joints. That is, Sn grain orientation significantly affects the element migration behavior, which affects the interfacial response of the micro solder joints. The influences of Sn grain orientation on element migration and interfacial reactions in micro solder joints under thermal aging, thermal cycling, current loading and temperature gradient are reviewed. It has been found that Sn grain orientation has little effect on element migration and interfacial reactions of micro solder joints under thermal aging or thermal cycling, while Sn grain orientation has a similar effect on electromigration and thermomigration behavior, resulting in the asymmetrical and uneven growth of interfacial intermetallic compounds (IMCs). In addition, studies on the anisotropy of element diffusion in micros solder joints based on numerical simulation methods are also reviewed, and the progress of the studies under different conditions is summarized.

Key words: electronic packaging, anisotropy, grain orientation, element migration, interfacial reaction, numerical simulation

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