TY - EJOU AU - Cheng, H. C. AU - Yu, C. Y. AU - Chen, W. H. TI - An Effective Thermal-mechanical Modeling Methodology for Large-scale Area Array Typed Packages T2 - Computer Modeling in Engineering \& Sciences PY - 2005 VL - 7 IS - 1 SN - 1526-1506 AB - In this study, a simple but effective solution methodology that integrates a modified global/local finite element (GLFE) modeling technique and a two-staged constitutive modeling strategy is presented for the thermal-mechanical modeling of solder joints in an area array typed electronic package for characterizing the associated solder joint fatigue life under the JEDEC temperature cycling specification. The effectiveness and applicability of the proposed technique are demonstrated through two case studies, each of which is associated with an area array typed test vehicle. The geometry profile of solder joints in the test vehicle is determined by the Surface Evolver [Brakke (1996)]. For benchmark, a baseline finite element (FE) modeling is attempted by a conventional direct FE analysis (DFEA) approach. The DFEA approach employs a 3-D, fine-mesh FE model and a full constitutive law that takes both elastoplasticity and viscoelastic into account. The validity of the proposed thermal-mechanical modeling methodology is confirmed through existing experimental fatigue life data in literature as well as optical, interferometric measurement of the in-plane displacement field performed in this work. It turns out that the proposed methodology can efficiently and accurately deal with solder joint fatigue life prediction for large-scale area array typed electronic packages consisting of a large number of solder joints. In addition, results show that in terms of computational performance and solution accuracy, the methodology incorporating with the simplified constitutive law-Dwell Creep (DC) model could be a very ideal choice. KW - Global/local FE approach KW - Area array typed package KW - Fatigue life KW - Moiré interferometry DO - 10.3970/cmes.2005.007.001