Al-Mg-Zn3元系の共晶反応を利用したAl基鋳造合金の凝固組織と室温破壊靭性

In order to investigate the effects of Mn and Cu additions on solidification microstructure and high-temperature strength of cast AlFe alloys, we have fabricated various AlFe-based alloys with compositions of Al1%Fe, Al1%Fe1%Mn, Al1%Fe1%Cu, and Al1%Fe 1%Cu1%Mn (mol%) solidified at different cooling rates (0.3 K•s ¹1 and 145 K•s ¹1 ). In the Al1%Fe binary alloy, the coarsened ª-Al 13 Fe 4 phase with a needle-shaped morphology was often observed in the furnace-cooled sample (0.3 K•s ¹1 ), whereas the cast sample (145 K•s ¹1 ) exhibited several elongated ¡ phases surrounded by fine ¡/Al 6 Fe eutectic microstructure. Such a solidification microstructure was observed in the cast Al 1%Fe1%Cu alloy, whereas the Al 23 CuFe 4 phase was locally formed in the finally solidified zone in the furnace-cooled sample. In the Al 1%Fe1%Mn alloy, the Al 6 (Fe, Mn) phase was formed regardless of the cooling rate. Finer ¡/Al 6 (Fe, Mn) two-phase eutectic microstructure was almost entirely occupied in the cast sample. The fine eutectic microstructure was observed in the cast Al1%Fe1%Cu1%Mn alloy as well.Compression tests for cast alloy specimens revealed that the Al1%Fe1%Cu1%Mn alloy exhibited the highest strength level among the studied alloy specimens, indicating the combined addition of Mn and Cu elements could be effective in improving the high-temperature strength of the cast AlFe alloys.

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Effects of Mn and Cu Additions on Solidification Microstructure and High-Temperature Strength of Cast Al–Fe Binary Alloy

Okano

Takata

Suzuki

et al. 2023

Mater. Trans.

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Al-Mg-Zn3元系の共晶反応を利用したAl基鋳造合金の凝固組織と室温破壊靭性

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Effects of Mn and Cu Additions on Solidification Microstructure and High-Temperature Strength of Cast Al–Fe Binary Alloy

Effects of Mn and Cu Additions on Solidification Microstructure and High-Temperature Strength of Cast Al–Fe Binary Alloy

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