Abstract: The lift-off phenomenon in through-hole wave soldering with Sn-Ag-Cu-Bi solder was investigated by the simulation experiment. It can be seen that the segregation of Bi becomes more remarkable at the corner of the solder body/PCB pad. The local irregularity of Bi delays the solidification of the solder at the above area and thus the residual liquid solder at that place becomes the aggregation area of shrinkage void during the following crystallization. The shrinkage strain exceeds the lowest plasticity of the Bi segregation solder in the later crystallization, and then crack comes into being from mechanism similar to that of the crystal crack. The presence of strong segregation element Bi exacerbates the probability of lift-off. The probability of fillet-lifting increases with increasing Bi content and the Pb contamination on the solidification behavior of through-hole solder joint, and decreases with the increasing cooling rate for solder joint. However, the fillet-lifting can not be completely eliminated by the rapid cooling for through-hole solder joint, and the rapid cooling can create cracks at the surface of solder. The fillet-lifting can be suppressed by eliminating Pb contamination, reducing the Bi content in solder and controlling the cooling rate for solder joint.

Key words: lead free wave soldering; lift-off; segregation; crystal crack