A time dependent damage indicator model for Sn3.5Ag solder layer in power electronic module |
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Affiliation: | 1. Materials Center Leoben Forschung GmbH, Roseggerstraße 12, 8700 Leoben, Austria;2. Erich Schmid Institute for Materials Science, Austrian Academy of Sciences, Montanuniversität Leoben, Jahnstraße 12, Leoben, Austria;3. Dept. of Material Physics, Montanuniversität Leoben, Jahnstraße 12, Leoben, Austria;1. Univ. Bordeaux, IMS, UMR 5218, F-33405 Talence, France;2. Labinal Power System, Safran Group, Réau, France;3. Serma Technologies, Pessac, France |
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Abstract: | This paper reviewed the existing damage evolution models in the literature for solder layer in microelectronics and then proposed a two dimensional approximate time dependent damage indicator model for Sn3.5Ag type lead free solder layer in power electronic module application. The proposed time dependent damage indicator model is influenced by inelastic strain from microstructural evolution Anand viscoplastic model. The experimental evaluation of parameter values of the proposed damage indicator model was not feasible. Hence, we adopted a numerical approximation methodology to extract the parameter values of the damage model. A MatLab code was generated to simulate the stress versus strain curve of the solder layer during the thermal variance loading. A data from public domain for crack initiation and crack propagation of SnAg solder layer was also utilised to estimate the parameter values of damage indicator model. The developed approximate time dependent damage model was numerically compared with a damage model in the literature based on Coffin Manson and Paris law fatigue model for prediction accuracy. |
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