The effect of the different teflon films on anisotropic conductive adhesive film (ACF) bonding

Jun Zhang, Y. Lin, Liugang Huang
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Abstract

New interconnect materials are always necessary as a result of evolving packaging technologies and increasing performance and environmental demands on electronic systems. Polymer-based conductive-adhesive materials have become widely used in many electronic packaging interconnect applications. Among all the conductive-adhesive materials, the anisotropic conductive adhesives (ACA) (or anisotropic conductive adhesive films, ACF) have gained popularity as a potential replacement for solder interconnects. For ACF interconnection, thermo-compression (T/C) bonding is the most common method. In this study, the effects of the some important processing parameters, including the increasing rate of bonding temperature and different Teflon films, on the reliability of the ACF joints were investigated. Results show that the performances of the ACF joints were affected by the distribution of conductive particles and the curing degree of the ACF, which was determined by the bonding temperature ramp rates. The bonding strengths of ACF joints are different for the different Teflon filmpsilas thickness and kinds.
不同聚四氟乙烯薄膜对各向异性导电胶膜(ACF)粘接的影响
由于不断发展的封装技术以及对电子系统的性能和环境要求的提高,新的互连材料总是必要的。聚合物基导电粘接材料已广泛应用于许多电子封装互连领域。在所有导电粘合材料中,各向异性导电胶粘剂(ACA)(或各向异性导电胶膜,ACF)作为焊接互连的潜在替代品而受到欢迎。对于ACF互连,热压缩(T/C)键合是最常用的方法。在本研究中,研究了一些重要的工艺参数,包括连接温度的增加速度和不同的Teflon薄膜,对ACF接头可靠性的影响。结果表明:导电颗粒的分布和ACF的固化程度影响ACF接头的性能,而ACF的固化程度又由键合温度斜坡率决定;不同的聚四氟乙烯膜厚度和种类对ACF接头的结合强度有不同的影响。
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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