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First-principles investigation on the thermodynamic and mechanical properties of Y4Zr3O12 and Y2Ti2O7 oxides in ferritic alloy under helium environment

Ye Liu, Zunmin Lin, Shuang He, Lin Zhang, Xu Chen, Qiankun Tan, Oleg I. Gorbatov, Ping Peng, Xuanhui Qu

2024Journal of Materials Research and Technology14 citationsDOIOpen Access PDF

Abstract

Oxides play a crucial role in shaping various properties in ferritic alloys under Helium environment. This study investigates the thermodynamic and mechanical properties of Y4Zr3O12 and Y2Ti2O7 oxides in ferritic alloys with and without Helium utilizing a systematic first-principles approach. Firstly, the atomic arrangement of Y and Zr atoms at cation 18f site in δ Y–Zr–O oxide is identified, while it is found that Y4Zr3O12 exhibits a more robust formation tendency than Y2Ti2O7. Furthermore, it is noted that both Y4Zr3O12 and Y2Ti2O7 oxides demonstrate a prior ability to trap Helium compared to the bcc-Fe matrix, which leads to a substantial enhancement on the stiffness of both oxides. The elastic moduli of both Y4Zr3O12 and Y2Ti2O7 oxide exhibit a gradual increase with the growing Helium concentration. As a result, the enhanced shear modulus of oxides and sustained shear modulus of the bcc-Fe matrix collectively contribute to the overall strength of ferritic alloys under Helium environments. The findings in this work propose valuable insights for guiding critical strategies in the design of high-performance oxide-dispersion-strengthened ferritic alloys, particularly for applications in Helium environments.

Topics & Concepts

Materials scienceHeliumOxideAlloyShear modulusDispersion (optics)ModulusElastic modulusCondensed matter physicsThermodynamicsMetallurgyComposite materialAtomic physicsOpticsPhysicsFusion materials and technologiesNuclear Materials and PropertiesNuclear materials and radiation effects
First-principles investigation on the thermodynamic and mechanical properties of Y4Zr3O12 and Y2Ti2O7 oxides in ferritic alloy under helium environment | Litcius