Hydrogen Behavior in Primary Precipitate of F82H Steel: Atomistic Calculation Based on the Density Functional Theory

Yoshiyuki WATANABE; Hirotomo IWAKIRI; Norihiko MURAYOSHI; Daiji KATO; Hiroyasu TANIGAWA

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Hydrogen Behavior in Primary Precipitate of F82H Steel: Atomistic Calculation Based on the Density Functional Theory

机译：F82H钢一次沉淀中的氢行为：基于密度泛函理论的原子计算

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Formation energy of an isolated hydrogen atom in Cr₂₃C₆has been investigated using atomisitic calculation based on the density functional theory. The lowest calculated formation energy is ?0.48 eV, where a hydrogen atom is located at a trigonal bipyramidal site surrounded by five Cr lattice atoms, due to electric charge of atoms. Although it is a rough estimate, a comparison with the formation energy in Fe may imply that hydrogen retention in F82H steel can be much higher in Cr₂₃C₆-based precipitate than in Fe-based matrix.

机译：基于密度泛函理论，采用原子计算方法研究了Cr _{23 C _{6 中孤立氢原子的形成能。最低的计算形成能为〜0.48 eV，其中氢原子由于原子的电荷而位于被五个Cr晶格原子包围的三角双锥体位置。尽管粗略估算，但与Fe中的形成能进行比较可能意味着F82H钢中Cr _{23 C _{6 基析出物中的氢保留可能要高得多。在铁基基质中。}}}}

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《Plasma and Fusion Research》 |2015年第4期|共1页
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Yoshiyuki WATANABE; Hirotomo IWAKIRI; Norihiko MURAYOSHI; Daiji KATO; Hiroyasu TANIGAWA;
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中图分类等离子体物理学;
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入库时间 2022-08-18 14:10:57

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1. Hydrogen retention behavior of primary precipitates in F82H steel: Atomistic calculation based on the density functional theory [J] . Watanabe Yoshiyuki, Iwakiri Hirotomo, Murayoshi Norihiko, Fusion Engineering and Design . 2020,第Octa期

机译：F82H钢中初级沉淀物的氢保留行为：基于密度函数理论的原子计算
2. High-pressure behavior of dense hydrogen up to 3.5 TPa from density functional theory calculations [J] . Geng Hua Y., Song Hong X., Li J. F., Journal of Applied Physics . 2012,第6期

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Hydrogen Behavior in Primary Precipitate of F82H Steel: Atomistic Calculation Based on the Density Functional Theory

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