Effects of thermal treatment on microstructure and microhardness of rapidly solidified Sn-Ag-Zn eutectic solder

The structural stability of rapidly solidified (about 10(4) K/s) Sn-3.7Ag-0.9Zn eutectic solder was explored by high-temperature annealing. For the as-cast solders, the applied fast cooling rate had a significant influence on the microstructure of the solders. The faster the applied cooling rates, the smaller the beta-Sn dendrites. After annealing at 473 K for 20 and 50 h, beta-Sn dendrites congregated together into bulk ones for minimizing the interfacial energy, and Ag3Sn intermetallic compounds (IMCs) as well as ternary Ag-Zn-Sn IMCs segregated on the grain boundary of the beta-Sn dendrites. It seems that the coarsening of the beta-Sn dendrites in the rapidly solidified specimen brought a significant softening during annealing of the explored Sn-Ag-Zn alloy. Finally, the beta-Sn dendrites vanished gradually with increase of the annealing period, which leads to a kind of softening.