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W3024196947 abstract "Abstract First-Passage Kinetic Monte Carlo (FPKMC) simulations of species migration in duplex stainless steels were performed in order to establish relationships between alloy content, segregation behavior, and the formation of Ni–Si–Mn rich particles in cast duplex stainless steels during thermal aging. The Ni–Si–Mn-rich second phase forms after extended aging at reactor operating temperatures and degrades alloy properties. Simulations of Ni–Si–Mn cluster formation were validated through comparison with experimental results obtained through Atom Probe Tomography (APT) on similar alloy compositions, identifying several trends. First, Cu promotes the formation of Ni–Si–Mn clusters, but only when Ni or Mn prefer segregation to the surface of Cu particles; without the segregation of these species, the critical composition for the clusters to form was not achieved. Second, the width of precipitate-denuded zones near γ/δ interfaces increases with decreasing Cu content. This finding was in strong agreement with APT and Scanning Transmission Electron Microscopy results, further validating our model. Finally, our model predicts that Ni–Si–Mn cluster formation will be the most extensive when the Si:Mn ratio is approximately 1:1 and the least extensive when one of these key elements is less concentrated (Mn ≤ 0.5 at.% or Si ≤ 0.5 at.%). The implications of these results on how to improve alloy properties are discussed." @default.
W3024196947 created "2020-05-21" @default.
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W3024196947 creator A5010626570 @default.
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W3024196947 date "2020-08-01" @default.
W3024196947 modified "2023-09-29" @default.
W3024196947 title "Monte Carlo simulations of Cu/Ni–Si–Mn co-precipitation in duplex stainless steels" @default.
W3024196947 cites W1974691994 @default.
W3024196947 cites W1977953490 @default.
W3024196947 cites W1978630722 @default.
W3024196947 cites W1980663136 @default.
W3024196947 cites W1984535321 @default.
W3024196947 cites W1988155301 @default.
W3024196947 cites W1990049062 @default.
W3024196947 cites W2006374194 @default.
W3024196947 cites W2014693361 @default.
W3024196947 cites W2014755655 @default.
W3024196947 cites W2027380982 @default.
W3024196947 cites W2027518824 @default.
W3024196947 cites W2032876604 @default.
W3024196947 cites W2033537179 @default.
W3024196947 cites W2038377338 @default.
W3024196947 cites W2040273134 @default.
W3024196947 cites W2043056815 @default.
W3024196947 cites W2047051420 @default.
W3024196947 cites W2047886827 @default.
W3024196947 cites W2070798674 @default.
W3024196947 cites W2072024713 @default.
W3024196947 cites W2073940195 @default.
W3024196947 cites W2074442423 @default.
W3024196947 cites W2074970961 @default.
W3024196947 cites W2075406992 @default.
W3024196947 cites W2077709566 @default.
W3024196947 cites W2100104841 @default.
W3024196947 cites W2167817988 @default.
W3024196947 cites W2172275452 @default.
W3024196947 cites W2221624894 @default.
W3024196947 cites W2258654163 @default.
W3024196947 cites W2264115438 @default.
W3024196947 cites W2344591425 @default.
W3024196947 cites W2501507403 @default.
W3024196947 cites W2581963102 @default.
W3024196947 cites W2588819492 @default.
W3024196947 cites W2594822580 @default.
W3024196947 cites W2600566118 @default.
W3024196947 cites W2606409609 @default.
W3024196947 cites W2736779801 @default.
W3024196947 cites W2739924916 @default.
W3024196947 cites W2747973658 @default.
W3024196947 cites W2783640130 @default.
W3024196947 cites W2789582306 @default.
W3024196947 cites W2792059030 @default.
W3024196947 cites W2792238027 @default.
W3024196947 cites W2795090487 @default.
W3024196947 cites W2810016050 @default.
W3024196947 cites W2883319802 @default.
W3024196947 cites W2888116093 @default.
W3024196947 cites W2888682305 @default.
W3024196947 cites W2902363057 @default.
W3024196947 cites W2902525181 @default.
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W3024196947 cites W3024502002 @default.
W3024196947 cites W3132345313 @default.
W3024196947 cites W317540423 @default.
W3024196947 cites W2782257555 @default.
W3024196947 doi "https://doi.org/10.1016/j.actamat.2020.03.053" @default.
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