Abstract
The aim of this experimental investigation is to evaluate the tensile properties of as-cast Sn–Ag alloys as a function of both the resulting secondary dendritic arm spacings and the morphology of the Ag3Sn IMC (intermetallic compound). This comparative experimental investigation was carried out with a view to assess the application of Sn–Ag alloys as alternative solder materials. A directional water-cooled solidification apparatus was used to obtain the as-cast samples. The resulting microstructures, ultimate and yield tensile strengths and elongation of Sn–2wt.% Ag and Sn–3.5wt.% Ag alloys were experimentally determined and compared with the corresponding results of the traditional Sn–40wt.% Pb solder alloy. It was found that the Sn–Ag alloys examined comply with the compromise between compatible mechanical strength and environmental protection.
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