Abstract
The interfacial reactions of Ni with Sn-Zn alloys with 1 wt.% to 9 wt.% Zn at 250°C were examined. The Zn content greatly affected the intermetallic compounds formed and microstructural evolution. A continuous Ni5Zn21 layer was formed for the Sn-Zn/Ni couples with a Zn content higher than 5 wt.%. A stable reaction layer existed at the interface and grew thicker with time. When decreasing to 3 wt.% Zn, two thin reaction layers of Ni5Zn21 and (Ni,Zn)3Sn4 were simultaneously observed initially, and then an extremely large faceted Ni5Zn21 phase was formed near the boundary between the Ni5Zn21 layer and the solder. Furthermore, when the Zn content was lower than 2 wt.%, the dominant phase changed to (Ni,Zn)3Sn4. The Zn concentration of the solder gradually decreased with reaction, and thus the interfacial stability was reduced. Subsequently, a large amount of (Ni,Zn)3Sn4 grains were dispersed into the molten solder, and finally the reaction product at the interface changed to Ni3Sn4.
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