Variations of thermal conductivity with temperature and composition of Zn in the Bi–[x] at.% Zn–2 at.% Al alloys

The variations of thermal conductivity with temperature for Bi–[x] at.% Zn–2 at.% Al alloys (x = 4.5, 18.0, 30.1, 79.0 and 98) were measured by using a radial heat flow apparatus. From the graphs of thermal conductivity versus temperature, the thermal conductivity of solid phases at their melting temperature for Bi–[x] at.% Zn–2 at.% Al alloys (x = 4.5, 18.0, 30.1, 79.0 and 98) were obtained. Dependency of the thermal conductivity on composition of Zn in the Al–Bi–Zn alloys was also investigated. According to present experimental results, the thermal conductivity of the Bi–[x] at.% Zn–2 at.% Al alloys linearly decrease with increasing the temperature and exponentially increase with increasing the composition of Zn.

Graphical abstractDependency of thermal conductivity of solid phases on temperature and composition of Zn in the Bi–[x] at.% Zn–2 at.% Al (x = 4.5, 18.0, 30.1, 79.0 and 98) alloys were investigated by using a radial heat flow apparatus.Figure optionsDownload full-size imageDownload as PowerPoint slideHighlights► Variations of thermal conductivity with temperature for Al–Bi–Zn alloys were measured. ► Dependencies of thermal conductivity on the compositions of Zn were investigated. ► Thermal temperature coefficients of Al–Bi–Zn alloys were determined.