The trend towards miniaturization of electronic products leads to the need for very small sized solder joints. Therefore, there is a higher reliability risk that too large a fraction of solder joints will transform into Intermetallic Compounds (IMCs) at the solder interface. In this paper, fracture mechanics study of the IMC layer for SnPb and Pb-free solder joints was carried out using finite element numerical computer modelling method. It is assumed that only one crack is present in the IMC layer. Linear Elastic Fracture Mechanics (LEFM) approach is used for parametric study of the Stress Intensity Factors (SIF, KI and KII), at the predefined crack in the IMC layer of solder butt joint tensile sample. Contrary to intuition, it is revealed that a thicker IMC layer in fact increases the reliability of solder joint for a cracked IMC. Value of KI and KII are found to decrease with the location of the crack further away from the solder interfaces while other parameters are constant. Solder thickness and strain rate were also found to have a significant influence on the SIF values. It has been found that soft solder matrix generates non-uniform plastic deformation across the solder-IMC interface near the crack tip that is responsible to obtain higher KI and KII.
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机译:电子产品小型化的趋势导致需要非常小尺寸的焊点。因此,存在较高的可靠性风险,即过多的焊点会在焊点处转变为金属间化合物(IMC)。本文采用有限元数值计算机建模方法对无锡铅和无铅焊点的IMC层进行了断裂力学研究。假定在IMC层中仅存在一个裂纹。线性弹性断裂力学(LEFM)方法用于在IMC层中预定义裂缝处的应力强度因子(SIF,K I 和K II )的参数研究焊接对接接头拉伸样品。与直觉相反,事实表明,较厚的IMC层实际上增加了破裂的IMC的焊点可靠性。发现K I 和K II 的值随着裂纹的位置远离焊料界面而减小,而其他参数不变。还发现焊锡厚度和应变率对SIF值有重大影响。已经发现,软焊料基体在裂纹尖端附近的焊料-IMC界面上产生不均匀的塑性变形,这导致获得更高的K I 和K II 。
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