An Influence of the Composition and Annealing Temperature onto Microstructure and Mechanical Properties of Fe–Cr–Al Alloys
V. O. Kharchenko$^{1,2}$, D. O. Kharchenko$^{1}$, O. M. Schokotova$^{1}$, B. O. Lysenko$^{1}$, A. V. Dvornichenko$^{2}$
$^{1}$Институт прикладной физики НАН Украины, ул. Петропавловская, 58, 40000 Сумы, Украина
$^{2}$Сумской государственный университет, ул. Римского-Корсакова, 2, 40007 Сумы, Украина
Получена: 11.03.2024; окончательный вариант - 06.05.2024. Скачать: PDF
A generalized model of the phase field is developed for modelling the dynamics of microstructural transformations in iron-based Fe–Cr–Al alloys by taking into account the dynamics of equilibrium point defects. Dynamics of the processes of formation and growth of chromium-enriched precipitates of α'-phase during long-term annealing of solid solution is studied. An influence of both the concentration of alloying elements and the annealing temperature on the dynamic and statistical characteristics of the growing precipitates is analysed. The scaling dynamics of the average size of precipitates, their number as well as the universality of size distribution are shown. A redistribution of elastic stresses under mechanical loading in the form of shear deformation is investigated within the framework of the nonlinear theory of elasticity. The influence of both the composition and the annealing temperature on the mechanical properties of the alloy is analysed.
Ключевые слова: phase-field method, numerical modelling, precipitates of secondary phases, statistical properties.
URL: https://mfint.imp.kiev.ua/ru/abstract/v46/i09/0861.html
PACS: 61.72.Cc, 61.72.J-, 61.72.Qq, 61.80.Az, 62.20.D-, 62.20.F-, 82.60.Nh