Progressive damage in Sn-4Ag-0.5Cu solder joints during flexural fatigue of a BGA package

2010 34th IEEE/CPMT International Electronic Manufacturing Technology Symposium (IEMT) Pub Date : 2010-11-01 DOI:10.1109/IEMT.2010.5746689

N. Shaffiar, W. K. Loh, N. Kamsah, M. Tamin

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Abstract

This study examines evolution characteristics of inelastic strains and materials damage in Sn-4Ag-0.5Cu (SAC405) solder joints of a BGA package under cyclic mechanical stressing. For this purpose, a finite element model of the assembly under four-point bend test set-up is employed. Strain rate-dependent response of the solder is represented by Anand model. Progressive damage in the solder joint is described using continuum damage model. Results show that the critical solder joint is the one located at the corner of the BGA package. In this critical solder joint, both high stress and inelastic strain are localized in a small edge region at the solder/IMC interface at the board side of the assembly. The different inelastic strain rates experienced by the critical solder joint during fatigue cycles correspond to the distinct damage initiation stage, crack propagation stage and the final fast fracture of the solder joint. Damage initiation life covers nearly half of the total fatigue lives of the critical solder.

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BGA封装弯曲疲劳过程中Sn-4Ag-0.5Cu焊点的渐进性损伤

研究了循环机械应力作用下BGA封装Sn-4Ag-0.5Cu (SAC405)焊点的非弹性应变和材料损伤的演化特征。为此，采用了四点弯曲试验装置下的装配有限元模型。焊料的应变速率响应用Anand模型表示。采用连续损伤模型描述了焊点的渐进损伤。结果表明，关键焊点位于BGA封装的角落处。在这个关键焊点中，高应力和非弹性应变都集中在组件板侧焊料/IMC界面的小边缘区域。临界焊点在疲劳循环过程中所经历的不同非弹性应变速率对应着不同的损伤起始阶段、裂纹扩展阶段和最终的快速断裂阶段。损伤起始寿命几乎占临界焊料总疲劳寿命的一半。

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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2010 34th IEEE/CPMT International Electronic Manufacturing Technology Symposium (IEMT)

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