Interfacial Reaction between Sn-3.0Ag-0.5Cu Solder/Co-P Plating and Ni-Co-P Plating

Abstract

A solder joint is required to have a impact reliability for use in portable electronic products. In general, there is a correlation between the impact reliability and the morphology and thickness of the reaction layer formed at the solder/under bump metallurgy (UBM) interface. The characteristics of the reaction layer depend on the UBM. This study aims to clarify the effect of UBMs on the reaction layer formed at the solder/UBM interface. For this purpose, Sn-3.0 mass%Ag-0.5 mass%Cu was soldered on UBMs such as electroless Co-P plating (Co-P) and Ni-Co-P plating (Ni-Co-P). An electroless Ni-P plating (Ni-P) substrate was used as a reference substrate. The peak temperature of the preset reflow profile was 523 K for 60 s. Then, some of the specimens were subjected to aging at 423 K for 168-1008 h. After soldering, the spreading area of the solder on the UBMs was measured using an optical microscope (OM). The spreading area of the solder on Co-P was larger than that of the solder on Ni-Co-P and Ni-P. Therefore, the solder on Co-P had better wetting characteristics than that on Ni-Co-P and Ni-P. Further, the reaction layer at the solder/UBM interface was observed using a scanning electron microscope (SEM). A fine and a large needle-like intermetallic compound (IMC) were formed at the solder/Co-P and the solder/Ni-Co-P interfaces, respectively, whereas a layer-like IMC was formed at the solder/Ni-P interface. After aging for 1008 h, the thicknesses of the continuous IMC layers for Co-P and Ni-Co-P were approximately 10 μm and 5 μm, respectively, whereas the thickness of the continuous IMC layer for Ni-P was only approximately 3 μm.