Agradecimentos: The authors acknowledge the financial support provided by CNPq (The Brazilian Research Council), FAEPEX–UNICAMP and FAPESP (São Paulo Research Foundation – Grants 2013/15478-3 and 2013/13030-5)

Sn–Cu alloys are interesting lead-free solder alternatives, with particular interest in the eutectic/near-eutectic compositions. However, little is known about the corrosion responses of these solders while subjected to corrosive environments. The present study examines the Sn–0.7 wt.%Cu solder...

Sn–Cu alloys are interesting lead-free solder alternatives, with particular interest in the eutectic/near-eutectic compositions. However, little is known about the corrosion responses of these solders while subjected to corrosive environments. The present study examines the Sn–0.7 wt.%Cu solder alloy and the experimental results include a range of cooling rates and growth rates during solidification, metallography with comprehensive characterization of the distinct dendritic and cellular regions and the resulting corrosion and tensile mechanical parameters (potential, corrosion rate, polarization resistance, tensile strength). A β-Sn phase having a dendritic morphology is shown to characterize regions that are associated with higher cooling rates during solidification, while for lower cooling rates (<0.9 K/s) the prevalence of eutectic cells is observed. It was found that lower corrosion resistance and higher mechanical strength are associated with a microstructure formed by an arrangement of very fine dendritic branches and Cu6Sn5 fibrous intermetallic compound (IMC)

FUNDAÇÃO DE AMPARO À PESQUISA DO ESTADO DE SÃO PAULO - FAPESP

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