A comparative study of cascades in nanostructured ferritic alloys and pure Fe is performed to reveal the influence of Y_2Ti_2O_7 nanocluster on cascades by molecular dynamics simulations. The cascades with energies of...A comparative study of cascades in nanostructured ferritic alloys and pure Fe is performed to reveal the influence of Y_2Ti_2O_7 nanocluster on cascades by molecular dynamics simulations. The cascades with energies of primary knock-on atom(PKA) ranging from 0.5 keV to 4.0 keV and PKA's distances to the interface from 0 to 50 are simulated. It turns out that the Y_2Ti_2O_7 nanocluster can absorb the kinetic energy of cascade atoms, prevent the cascade from extending and reduce the defect production significantly when the cascades overlap with the nanocluster. When the cascade affects seriously the nanocluster, the weak sub-cascade collisions are rebounded by the nanocluster and thus leave more interstitials in the matrix. On the contrary, when the cascade contacts weakly the nanocluster, the interface can pin the arrived interstitials and this leaves more vacancies in the matrix. Moreover, the results indicate that the Y_2Ti_2O_7 nanocluster keeps stable upon the displacement cascade damage.展开更多
This work focuses on fundamental understanding of microstructure evolution of nanostructured ferritic alloy(NFA) and 25 vol.% Cr3C2 coated Si C(Cr3C2@Si C)-NFA composite during spark plasma sintering at950°C and ...This work focuses on fundamental understanding of microstructure evolution of nanostructured ferritic alloy(NFA) and 25 vol.% Cr3C2 coated Si C(Cr3C2@Si C)-NFA composite during spark plasma sintering at950°C and the following thermal treatment at 1000°C. A unique bi-phase microstructure with distinct Cr-rich and Si-rich phases has been observed for the 25 vol.% Cr3C2@Si C-NFA composite, while for the NFA sample, the traditional large grain microstructure remains. Grain sizes are significantly smaller for the25 vol.% Cr3C2@Si C-NFA composite compared to those for the pure NFA, which can be attributed to the presence of grain boundary phases in the composite sample. During the thermal treatment, microstructure features can be directly correlated with the dissolution kinetics and phase diagrams calculated using Thermo-Calc/DICTRA/PRISMA~?.展开更多
基金Project supported by the Science Challenge Project of China(Grant No.TZ2016002)the National Natural Science Foundation of China(Grant No.50871057)
文摘A comparative study of cascades in nanostructured ferritic alloys and pure Fe is performed to reveal the influence of Y_2Ti_2O_7 nanocluster on cascades by molecular dynamics simulations. The cascades with energies of primary knock-on atom(PKA) ranging from 0.5 keV to 4.0 keV and PKA's distances to the interface from 0 to 50 are simulated. It turns out that the Y_2Ti_2O_7 nanocluster can absorb the kinetic energy of cascade atoms, prevent the cascade from extending and reduce the defect production significantly when the cascades overlap with the nanocluster. When the cascade affects seriously the nanocluster, the weak sub-cascade collisions are rebounded by the nanocluster and thus leave more interstitials in the matrix. On the contrary, when the cascade contacts weakly the nanocluster, the interface can pin the arrived interstitials and this leaves more vacancies in the matrix. Moreover, the results indicate that the Y_2Ti_2O_7 nanocluster keeps stable upon the displacement cascade damage.
基金supported financially by the Office of Nuclear Energy of Department of Energy(No.#DE-NE0008264)。
文摘This work focuses on fundamental understanding of microstructure evolution of nanostructured ferritic alloy(NFA) and 25 vol.% Cr3C2 coated Si C(Cr3C2@Si C)-NFA composite during spark plasma sintering at950°C and the following thermal treatment at 1000°C. A unique bi-phase microstructure with distinct Cr-rich and Si-rich phases has been observed for the 25 vol.% Cr3C2@Si C-NFA composite, while for the NFA sample, the traditional large grain microstructure remains. Grain sizes are significantly smaller for the25 vol.% Cr3C2@Si C-NFA composite compared to those for the pure NFA, which can be attributed to the presence of grain boundary phases in the composite sample. During the thermal treatment, microstructure features can be directly correlated with the dissolution kinetics and phase diagrams calculated using Thermo-Calc/DICTRA/PRISMA~?.
