2022
DOI: 10.3390/cryst12050750
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Effect of Cooling Rate on Nano-Eutectic Formation in Laser Surface Remelted and Rare Earth Modified Hypereutectic Al-20Si Alloys

Abstract: Laser Surface Remelting (LSR) was applied to arc-melted Al-20Si-0.2Sr, Al-20Si-0.2Ce, and Al-20Si hypereutectic alloys to refine microstructures. Experiments revealed that microstructures in the melt pool varied from fully eutectic to a mixture of Al dendrites and inter-dendritic eutectic. We calculated cooling rates using the Eagar-Tsai model and correlated cooling rates with characteristic microstructures, revealing that a cooling rate on the order of 104 K/s could lead to maximized fully eutectic microstruc… Show more

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Cited by 7 publications
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“…In the former case, thermal treatments are perhaps the most important routes, and they have attracted much attention in recent years [1]. According to Nikanorov et al [2] and Kayitmazbatir [3], accurate control of the solidification rate may be highly beneficial in modifying some mechanical properties of Al-Si structures, irrespective of Si concentration. Magnetic fields are attracting growing attention as an atypical and promising method capable of modulating the mechanical properties of Al-Si-based quaternary alloys, with positive effects on microhardness [4].…”
Section: Introductionmentioning
confidence: 99%
“…In the former case, thermal treatments are perhaps the most important routes, and they have attracted much attention in recent years [1]. According to Nikanorov et al [2] and Kayitmazbatir [3], accurate control of the solidification rate may be highly beneficial in modifying some mechanical properties of Al-Si structures, irrespective of Si concentration. Magnetic fields are attracting growing attention as an atypical and promising method capable of modulating the mechanical properties of Al-Si-based quaternary alloys, with positive effects on microhardness [4].…”
Section: Introductionmentioning
confidence: 99%