Predictive reliability models through validated correlation between power cycling and thermal cycling accelerated life tests
Abstract
Aims to show that with careful modelling, the fatigue life of solder joints of identical geometry and microstructure can be predicted very accurately (through empirical correlations) under different environmental test or field use conditions. Here, on the TI 144 chip ‐scale package, the empirical correlation for fatigue life developed under thermal cycling conditions is used to predict the life under power cycling. This accurate model has served as the physical basis which in to demonstrate quantitatively the equivalence of thermal cycling and power cycling as valid accelerated life tests. Describes the great importance of spatial refinement, temporal refinement, and accurate boundary conditions, including the often ignored natural convection boundary conditions, and their effect on predicted life.
Keywords
Citation
Towashiraporn, P., Subbarayan, G., McIlvanie, B., Hunter, B.C., Love, D. and Sullivan, B. (2002), "Predictive reliability models through validated correlation between power cycling and thermal cycling accelerated life tests", Soldering & Surface Mount Technology, Vol. 14 No. 3, pp. 51-60. https://doi.org/10.1108/09540910210444737
Publisher
:MCB UP Ltd
Copyright © 2002, MCB UP Limited