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      급랭응고한 Al-Fe 합금계 리본을 고온에 노출시킴에 따른 미세석출물의 성장거동 = Coarsening Behavior of Fine Precipitates in Rapidly Quenched Al-Fe Based Alloy Ribbons by In-situ Heat Treatment

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      https://www.riss.kr/link?id=A3047779

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      The purposes of this study were to investigate the microstructural changes in alloy ribbons of Al-Fe-Mo-Si quarternary system at 450∼500℃, and to study the coarsening mechanism of fine precipitates. Using the hot stage in TEM, in situ microstructural changes in Al-4Fe-0.5Mo-1.5Si alloy ribbon and Al-8Fe-2Mo-1.5Si alloy ribbon have been examined successively up to 60 hours at 450℃ and 500℃. Cell structure in zone B of Al-4Fe-0.5Mo-1.5Si alloy ribbon was observed to collapse even in 10 minutes by in-situ heating at 450℃ and the size of precipitates in zone B increased twice in 60 hours. The precipitates in zone A of Al-4Fe-0.5Mo-1.5Si alloy ribbon showed slower coarsening rate than those in zone B by in-situ heating at 450℃. The precipitates in zone A of Al-8Fe-2Mo-1.5Si alloy ribbon increased 50% by in-situ heating at 500℃ in 50 hours compared to the initial precipitates while any microstructual change in zone B was not observed by in-situ heating at 500℃ up to 50 hours. Only the precipitates in zone A of Al-4Fe-0.5Mo-1.5Si alloy ribbon satisfied r³∝t relationship of coarsening mechanism.
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      The purposes of this study were to investigate the microstructural changes in alloy ribbons of Al-Fe-Mo-Si quarternary system at 450∼500℃, and to study the coarsening mechanism of fine precipitates. Using the hot stage in TEM, in situ microstruct...

      The purposes of this study were to investigate the microstructural changes in alloy ribbons of Al-Fe-Mo-Si quarternary system at 450∼500℃, and to study the coarsening mechanism of fine precipitates. Using the hot stage in TEM, in situ microstructural changes in Al-4Fe-0.5Mo-1.5Si alloy ribbon and Al-8Fe-2Mo-1.5Si alloy ribbon have been examined successively up to 60 hours at 450℃ and 500℃. Cell structure in zone B of Al-4Fe-0.5Mo-1.5Si alloy ribbon was observed to collapse even in 10 minutes by in-situ heating at 450℃ and the size of precipitates in zone B increased twice in 60 hours. The precipitates in zone A of Al-4Fe-0.5Mo-1.5Si alloy ribbon showed slower coarsening rate than those in zone B by in-situ heating at 450℃. The precipitates in zone A of Al-8Fe-2Mo-1.5Si alloy ribbon increased 50% by in-situ heating at 500℃ in 50 hours compared to the initial precipitates while any microstructual change in zone B was not observed by in-situ heating at 500℃ up to 50 hours. Only the precipitates in zone A of Al-4Fe-0.5Mo-1.5Si alloy ribbon satisfied r³∝t relationship of coarsening mechanism.

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