Investigation on the intermetallic compound layer growth of SnZnGa/SnZnGaNd solder joints

Abstract

Growth kinetics of intermetallic compound layers (IMCs) formed between SnZnGa/SnZnGaNd solders for re-flow soldering and Cu substrate during aging was investigated at temperatures between 100 and 150 °C. The Cu5Zn8 IMCs could be found by reacting SnZnGa/SnZnGaNd solders on Cu substrate, and it was found that the addition of rare earth Nd can decrease the thickness of the IMCs of SnZn/Cu solder joints. The apparent activation energies of Cu5Zn8 which were calculated as 48.76 kJ/mol (SnZnGa) and 56.99 kJ/mol (SnZnGaNd). The shear force of Sn9Zn0.5Ga0.08Nd solder joint after aging treatment was remarkably higher than those of Sn–9Zn and Sn9Zn0.5Ga solder joints. The results would provide support to the superiority of Sn9ZnGaNd solder which can be used in the electronic packaging instead of traditional SnPb solder.