Solder/substrate interfacial reactions in the Sn-Cu-Ni interconnection system

In order to obtain a better understanding of the effects of interconnection microstructures on the reliability of soldered assemblies, one of the most important ternary systems used in electronics, the Sn-Cu-Ni system, has been assessed thermodynamically. Based on the data obtained, some recent experimental observations related to the formation of interfacial intermetallic compounds in solder interconnections have been studied analytically. First, the effect of Cu content on the formation of the interfacial intermetallic compounds between the SnAgCu solder alloys and Ni substrate was investigated. The critical Cu content for (Cu,Ni)^sub 6^Sn^sub 5^ formation was evaluated as a function of temperature. Second, we analyzed how the Ni dissolved in the Cu^sub 6^Sn^sub 5^ compound affects the driving forces for the diffusion of components and hence the growth kinetics of (Cu,Ni)^sub 6^Sn^sub 5^ and (Cu,Ni)^sub 3^Sn reaction layers. With the thermodynamic description, other experimental observations related to the Sn-Cu-Ni system can be rationalized as well. The system can be used also as a subsystem for industrially important higher order solder systems. [PUBLICATION ABSTRACT]