Investigation of relation between intermetallic and tin whisker growths under ambient condition

Abstract

The relation between the whisker growth and intermetallic on various lead-free finish materials that have been stored at ambient condition for 2 yrs (6.3 × 10 7 s) is investigated. The matte Sn plated leadframe (LF) had the needle-shaped whisker and the nodule-shaped whisker was observed on the semi-bright Sn plated LF. Both the Sn plated LFs had a same columnar grain structure and both whiskers were grown in connection with the scalloped intermetallic compound (IMC) layer. The morphology of the IMC layer is similar, regardless of the area which has whisker or not. On the Sn–Bi finish and bright Sn plated LF, hillock-shaped and sparsely grown branch-shaped whiskers were observed, respectively. The IMC grew irregularly under both the areas with or without whisker. The IMC growth along the Sn grain boundaries generated inner compressive stress at the plating layer. Atomic force microscopy (AFM) profiling analysis is useful for characterization the IMC growth on the Sn and Cu interface. The measured root mean square (RMS) values IMC roughness on semi-bright Sn, matte Sn, and bright Sn plated LF were 1.82 μm, 1.46 μm, and 0.63 μm, respectively. However, there is no direct relation between whisker growth and the RMS value. Two layers of η′-Cu 6Sn 5 were observed using field emission transmission electron microscopy (FE-TEM): fine grains and coarse grains existed over the fine grains.