A COMPARISON OF THE ISOTHERMAL FATIGUE BEHAVIOR OF SN-AG-CU TO SN-PB SOLDER

 

The movement to Pb-free soldering will result in solder joints that are significantly stiffer than those made of SnPb. This paper presents the results from the first phase of a two-part study to understand and compare the isothermal mechanical fatigue behavior of tin-silver-copper (SnAgCu) solder to that of tin-lead (SnPb) solder. A combination of experiments and finite element analysis was used to compare and predict the durability of SnPb and SnAgCu surface mount solder joints. The experiments were composed of cyclic four-point bend tests of printed wiring board coupons populated with 2512 sized resistors at 5 and 10 Hz. This configuration was chosen so the test would reflect actual electronic products and still be rapidly modeled using finite element analysis (FEA). This frequency should be sufficiently high to minimize solder creep during the testing. The board level strains were verified with strain gauges and the solder joint failures were detected using a high-speed event detector. Tests were conducted at two board level strain values and then modeled in FEA to determine the strains and stresses developed in the solder joint. This information was then used to determine the appropriate cyclic fatigue relationship for both SnAgCu and SnPb solder. The results indicate that at high board level strains SnPb solder out performs SnAgCu solder. However, at lower board level strains the SnAgCu solder out performed SnPb. The second phase of the study involves bend testing at even lower board level strains to characterize the high cycle fatigue behaviors of the solders.

Topic: Solder Joint Fatigue

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