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Al-Ni alloys are promising aluminum alloys for high-temperature applications because of their

many good properties partly due to the high stability of the Al₃Ni eutectic fibers at elevated

temperature. However, the matrix of eutectic Al-Ni is weak. Therefore, the alloying elements

are important not only for improving the mechanical properties but also for preserving the

stability of the fibers. Eutectic Al-Ni alloys with Sc additions are studied through the microstructure,

resultant hardness after elevated temperature exposure, high-temperature tensile properties,

fracture behavior, and TEM micrographs. The results reveal that the addition of Sc up to 0.4 wt%

does not significantly change the grain sizes and the morphology of the eutectic phase. However,

the hardness increases with increasing amount of Sc and remains high when the temperature

reaches 300 °C, which is a result of precipitation hardening of Al₃Sc precipitates. The hardness

then decreases because of coarsening of the precipitates. The tensile properties at high temperature

of Al-6Ni alloys with Sc additions are better than those of Al-6Ni alloy without Sc addition.

This can also be explained by the occurrence of Al₃Sc precipitates. The fracture behavior of the

alloys has the same trend as the tensile properties. Therefore, Al-6Ni-0.4Sc is a new candidate

for high-temperature engineering applications.

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