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Atomistic Modeling Study of Alloying Element, Impurity Element, and Transmutation Products on the Cohesion of a Nickel E5(l-brace)001(r-brace) Twist Grain Boundary

机译：合金元素，杂质元素和嬗变产物的原子模型研究对镍E5（l-brace）001（r-brace）扭曲晶界的凝聚力

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Atomistic modeling methods were employed to investigate the effects of impurity elements on the metallurgy, irradiation embrittlement, and environmentally assisted cracking of nickel-base alloys exposed to nuclear environments. Calculations were performed via ab initio atomistic modeling methods to ensure the accuracy and reliability of the results. A Griffith-type fracture criterion was used to quantitatively assess the effect of elements or element pairs on the grain boundary cohesive strength. In order of most embrittling to most strengthening, the elements are ranked as: He, Li, S, H, C, Zr, P, Fe, Mn, Nb, Cr, and B. Helium is strongly embrittling (-2.04 eV/atom lowering of the Griffith energy), phosphorus has little effect on the grain boundary (0.1 eV/atom), and boron offers appreciable strengthening (1.03 eV/atom increase in the Griffith energy).

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Young, G. A.; Najafabadi, R.; Strohmayer, W.; Baldey, D. G.; Hamm, B.; Harris, J.; Sticht, J.; Wimmer, E.;
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年度 2003
页码 1-12
总页数 12
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Nickel base alloys ; Transmutation ; Grain boundaries ; Alloys ; Boron ; Crack propagation ; Embrittlement ; Fractures ; Helium ; Irradiation ; Metallurgical effects ; Metallurgy ; Phosphorus ; Simulation ; Stress corrosion;

机译：镍基合金;嬗变;晶界;合金;硼;裂纹扩展;脆化;断裂;氦;辐照;冶金效应;冶金;磷;模拟;应力腐蚀;
入库时间 2022-08-29 10:54:19

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7. An Atomistic Modeling Study of Alloying Element Impurity Element, and Transmutation Products on the cohesion of A Nickel E5 {l_brace}001{r_brace} Twist Grain Boundary [O] . Jr., G.A. Young, Najafabadi, R., Strohmayer, W., 2003

机译：合金元素杂质元素和嬗变产物的原子模拟研究对镍E5 {l_brace} 001 {r_brace}扭曲晶界的凝聚力

Atomistic Modeling Study of Alloying Element, Impurity Element, and Transmutation Products on the Cohesion of a Nickel E5(l-brace)001(r-brace) Twist Grain Boundary

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