| Abstract |
| To fabricate a film with the highest electrical conductivity through liquid-phase reaction sintering below 200 ℃ using composite pastes containing both Sn-58Bi and Cu particles as a filler material, the effects of process parameters, such as the mixing ratio of the fillers, reaction temperature, and reaction time, were evaluated and the parameters were optimized. The lowest sheet resistance of 0.0278 Ω/□ was obtained when the composite paste of Sn-58Bi/40 wt% Cu was sintered at 190 ℃ for 180 s. The reduced resistance was attributed to the increase in the portion of acicular Cu6Sn5 phases. The phases were formed by the dissolution and precipitation of Cu, and the three-dimensional linkage of irregular polygonal Cu6Sn5 phases using the acicular Cu6Sn5 through a Bi phase of the highest electrical resistivity. The reaction time, which was prolonged up to 180 s during the reaction at 190 ℃, maximized the number of acicular Cu6Sn5 and irregular polygonal Cu6Sn5 phases, through the formation of fine Cu6Sn5 phases by splitting behavior of coarse Cu6Sn5 phases.
(Received March 14, 2018; Accepted April 26, 2018) |
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| Key Words |
| Sn-58Bi, composite paste, reaction sintering, sheet resistance, acicular Cu6Sn5 |
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