Effect of alloying elements on pore characteristics of lotus-type porous Cu-X alloys (X = Ni, Co, Mn, Si, Sn, P).

The effect of alloying elements on the formation of long cylindrical pores was investigated for lotus-type porous Cu. The lotus-type porous Cu was fabricated using the centrifugal casting technique under hydrogen atmosphere with the addition of Ni, Co, Mn, Si, Sn, or P. The porosity and average pore diameter were significantly affected by the addition of alloying elements. The porosity was independent of the addition of Ni or Co but decreased with increasing Mn, Si, Sn, or P content. The average pore diameter exhibited minimum at 0.05 at.% Ni content and 0.02 at.% Co, Mn, or Si. It then increased as the content of alloying elements was increased up to 0.1 at.%. The average pore diameter sharply increased with increasing Sn or P content up to 0.1 at.%. It is suggested that the addition of alloying elements is an effective way to control the porosity and average pore diameter in lotus-type porous Cu without additional change of processing parameters such as the hydrogen gas pressure and solidification velocity. [ABSTRACT FROM AUTHOR]