Experiments of Failure and Damage in ITO-Coated PC/FPC with ACF Bonding due to Bending Fatigue

Chao‐Ming Lin, C. Chu
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引用次数: 1

Abstract

Anisotropic conductive film (ACF) is frequently used in the packaging manufacture for fine-pitch conductivity and interconnection, maintaining the electrical and mechanical connections between micro-electrodes. A key determinant of good conductivity is the deformation, fatigue, and breakage of conductive particles within the ACF packaging. This study aims to measure the resistance changes of specific conductive channels and observe the microscopic fatigue damage of compressed ACF conductive particles through the fabrication of Flex Printed Circuits (FPC) / Indium Tin Oxide-coated Polycarbonate (ITO-coated PC) specimens and the setup of bending experiments. The results show that the deformation, fatigue, and breakage of conductive particles will quantitatively affect electrical conductivity performance. By microscopically observing the breakage morphology of conductive particles before and after bending, it can be found that bending in the ACF packaging area further exacerbates the previously compressed and broken conductive particles, with cracks continuing to grow and shatter.
采用 ACF 粘合技术的 ITO 涂层 PC/FPC 因弯曲疲劳而失效和损坏的实验
各向异性导电膜(ACF)常用于微距导电和互连的封装制造,以保持微电极之间的电气和机械连接。良好导电性的一个关键决定因素是 ACF 封装内导电颗粒的变形、疲劳和断裂。本研究旨在通过制作柔性印刷电路板(FPC)/氧化铟锡涂层聚碳酸酯(ITO 涂层 PC)试样和设置弯曲实验,测量特定导电通道的电阻变化,并观察压缩 ACF 导电粒子的微观疲劳损伤。结果表明,导电粒子的变形、疲劳和断裂会对导电性能产生定量影响。通过在显微镜下观察导电粒子在弯曲前后的断裂形态,可以发现在 ACF 封装区域的弯曲会进一步加剧之前压缩和断裂的导电粒子,裂纹会继续生长和破碎。
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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