Remote Sensing Applications: Society and Environment. 2025.
Calculations of elastic and thermal properties of the strengthening C14 Fe6Nb4Al2 Laves phase using the density functional theory
Compounds with structures of the Laves phase type, which are precipitated in the matrix of steels or superalloys as a result of the work of the product at high temperatures, are usually considered useful strengthening phases, whose elastic and thermal properties are of considerable interest. In our work, the coefficients of the elastic tensor of the C14 Fe6Nb4Al2 Laves phase were calculated. The calculations were obtained using the density functional theory. Such elastic characteristics as the bulk modulus of elasticity, shear moduli, Young’s modulus and Poisson’s ratio, as well as thermal properties like sound wave velocities and Debye temperature, were obtained. The factors influencing the anisotropy of the elastic properties of Fe6Nb4Al2 were calculated.
Authors
Васильев Д.А. (Vasilyev Dmitry) 2, 5, 7 , Ихсанов Р.Ш. (Ikhsanov Renat S.) 5, 4 , Железный М.В. (Zheleznyi Mark) 2, 1 , Карцев А.И. (Kartsev Alexey) 3, 6, 8
Journal
Publisher
Springer
Issue number
12
Language
English
Pages
5427-5441
State
Published
Department
ИИИТ
Link
Volume
60
Year
2025
Organizations
- 1 RUDN
- 2 Baikov Institute of Metallurgy and Materials Science of RAS
- 3 Bauman Moscow State Technical University
- 4 P.N. Lebedev Physical Institute of the Russian Academy of Sciences
- 5 HSE University
- 6 MIREA-Russian Technological University
- 7 D. Mendeleev University of Chemical Technology of Russia
- 8 Computing Center of the Far Eastern Branch of the Russian Academy of Science
Keywords
Elastic properties of the single-crystal Laves phase; Elastic anisotropy; Thermal properties of the compound; Calculations by density functional theory
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