Kinetics of Sn whisker growth from Sn thin-films on Cu substrate

Illés, Balázs and Krammer, Olivér and Hurtony, Tamas and Dušek, Karel and Bušek, David and Skwarek, Agata (2020) Kinetics of Sn whisker growth from Sn thin-films on Cu substrate. Journal of Materials Science: Materials in Electronics, 31. pp. 16314-16323. ISSN 0957-4522

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Abstract

The kinetics of Sn whisker growth was investigated on vacuum evaporated Sn thin-films. Sn film layers were deposited on a Cu substrate with 0.5 and 1 µm thicknesses. The samples were stored in room conditions (22±1°C / 50±5RH%) for sixty days. The Sn whiskers and the Cu-Sn layer structure underneath them were investigated with both scanning electron and ion microscopy. Fast Cu-Sn intermetallic formation resulted in considerable mechanical stress in the Sn layer, which initiated intensive whisker growth right after the layer deposition. The thinner Sn layer produced twice many whiskers compared to the thicker one. The lengths of the filament-type whiskers were similar, but the growth characteristics differed. The thinner Sn layer performed the highest whisker growth rates during the first seven days, while the thicker Sn layer increased the growth rate only after seven days. This phenomenon was explained by the cross-correlation of the stress relaxation ability of Sn layers and the amount of Sn atoms for whisker growth. The very high filament whisker growth rates might be caused by the interface flow mechanism, which could be initiated by the intermetallic layer growth itself. Furthermore, a correlation was found between the type of the whiskers and the morphology of the intermetallic layer underneath.

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