Home > Publications database > Revealing solidification behaviour and phase transformations in Fe$_{60}$Co$_{25}$Ni$_{10}$Mo$_5$ and Fe$_{63}$Co$_{26}$Ni$_{11}$ alloys by using high-speed video and in situ X-ray diffraction > print

001     633795
005     20250825212458.0
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100 1 _ |a Liu, Shilei
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245 _ _ |a Revealing solidification behaviour and phase transformations in Fe$_{60}$Co$_{25}$Ni$_{10}$Mo$_5$ and Fe$_{63}$Co$_{26}$Ni$_{11}$ alloys by using high-speed video and in situ X-ray diffraction
260 _ _ |a Amsterdam [u.a.]
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520 _ _ |a A combination of time-resolved synchrotron X-ray diffraction (XRD), high-speed video and electromagnetic levitation (EML) enabled revealing the solidification path and phase transformations in Fe$_{60}$Co$_{25}$Ni$_{10}$Mo$_5$ and Fe$_{63}$Co$_{26}$Ni$_{11}$ alloys during heating and cooling. High-speed XRD provided direct evidence for nucleation of metastable δ-ferrite in undercooled liquid state and its quick transformation to γ-austenite. Addition of Mo clearly favours nucleation of $δ$-ferrite in Fe$_{60}$Co$_{25}$Ni$_{10}$Mo$_5$ melts undercooled by $Δ$T of about 100 K and more. In contrast, primary crystallisation of any of $δ$ and γ phases appears to be possible in Fe$_{63}$Co$_{26}$Ni$_{11}$ melts at all levels of undercooling. Neither Ni nor Mo exhibit any notable effect on the growth behaviour of $δ$ and $γ$ phases, which remains close to the one in the Fe$_{60}$Co$_{40}$ base alloy. Alloying with Mo has a strong impact on the microstructure and solid state transformations in the Fe$_{60}$Co$_{25}$Ni$_{10}$Mo$_5$ samples such as grain refinement at $Δ$T < 200 K, incomplete transformation of $γ$-austenite to $α$-ferrite, and formation of martensite at $Δ$T ≥ 330 K.
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700 1 _ |a Kaban, Victoria
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700 1 _ |a Gutowski, Olof
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700 1 _ |a Volkmann, Thomas
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700 1 _ |a Nielsch, Kornelius
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700 1 _ |a Kaban, Ivan
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