倒装BGA封装中底填/衬底接口的附着力和可靠性:计量和表征

27th Annual IEEE/SEMI International Electronics Manufacturing Technology Symposium Pub Date : 2002-11-07 DOI:10.1109/IEMT.2002.1032755

K. Nagarajan, R. Dauskardt

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引用次数: 11

摘要

本文通过将脱层模拟为沿两种材料之间界面扩展的裂纹，讨论了用于研究界面脱层的断裂力学方法。具体而言，研究了氮化硅钝化硅模与二氧化硅/氧化铝填充环氧底填料界面的粘附和亚临界脱粘。粘结力是根据施加应变能释放率的临界值G (J/m/sup 2/)来测量的。亚临界脱粘生长速率表征为施加g的函数，并在不同的界面化学、工艺和环境因素下研究了粘附和亚临界脱粘。通过使用不同的粘结促进剂和改变羧酸含量对界面化学进行了修饰。对填料头沉降等工艺变量进行了研究。在温度和湿度可控的环境下，研究了环境变量的影响。

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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Adhesion and reliability of underfill/subtrate interfaces in flip chip BGA packages: metrology and characterization

This paper discusses the methodologies of fracture mechanics that are used to study interfacial delamination by modeling delamination as a crack propagating along the interface between two materials. Specifically, adhesion and subcritical debonding at interface between silicon nitride passivated Silicon die and silica/alumina filled epoxy underfill are investigated. Adhesion was measured in terms of a critical value of the applied strain energy release rate, G (J/m/sup 2/). Subcritical debond growth rates were characterized as a function of applied G. Adhesion and subcritical debonding were studied by varying interfacial chemistry, process and environmental factors. Interfacial chemistry was modified by using different adhesion promoters and by varying the COOH acid content. Process variable such as filler bead settling was studied. The effects of environmental variables were studied with temperature and humidity controlled environments.

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27th Annual IEEE/SEMI International Electronics Manufacturing Technology Symposium

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