高温合金
材料科学
星团(航天器)
钼
镍
相(物质)
Atom(片上系统)
Crystal(编程语言)
单晶
化学物理
结晶学
结合能
原子物理学
冶金
合金
化学
物理
有机化学
程序设计语言
嵌入式系统
计算机科学
作者
Yiqun Du,Huixin Jin,Rongkai Kang,Boya Zhang,Han Wang,Jianxin Zhang
标识
DOI:10.1088/1572-9494/ad4bbc
摘要
Abstract Nickel-based single-crystal superalloys are crucial materials for the preparation of aero-engine turbine blades. Many solute elements are added to superalloys for strengthening. However, the relationship between the clustering behavior of solute atoms and the properties of nickel-based single-crystal superalloys is still unclear. Herein, we conduct first-principles calculations on γ phases with Mo−Mo and Mo−Mo−Ru clusters to reveal the possibility and stabilizing mechanism of solute clusters. Introducing Mo lowers the total energy, binding energy, and formation energy of the γ phase due to the replacement of weak Ni−Ni interaction with strong Mo−Ni bonding. Note that the γ phase containing the Mo−Mo cluster is more stable than that containing a Mo single atom, possibly owing to a wide affecting range. The Ru atom added to the γ phase can further boost system stability, and it tends to form a Mo−Mo−Ru cluster. The stabilizing impact of the Mo−Mo−Ru cluster is demonstrated to be the replacement of weak Ni−Mo interaction by the strong Ru−Mo interaction, which may be derived from the enhanced d -orbital hybridization.
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