S. E. Danilov
SEPARATION IN Fe–Ni AND Fe–Ni–P ALLOYS UNDER ELECTRON IRRADIATION AND ISOCHRONOUS ANNEALING
DOI: 10.17804/2410-9908.2023.6.159-164 The annealing of radiation defects in the Fe–34.7at.%Ni and Fe–34.6at.%Ni–0.1at.%P alloys irradiated with 5 MeV electrons is studied by the method of residual electrical resistivity. It is shown that, during annealing after irradiation at 80 K, vacancies become mobile in the region of 220 K with a migration energy of about 0.6 eV. In this case, vacancy-impurity complexes (clusters) are formed, and in the H36 alloy vacancy clusters are formed. Under irradiation at room temperatures, vacancy defects accumulate in the form of vacancy clusters. The dissociation of these clusters at 350–550 K results in the appearance of freely migrating vacancies and enhanced self-diffusion. This leads to radiation-accelerated ordering processes in the Fe–Ni and Fe–Ni–P alloys. At temperatures around 800 K, homogenization of the solid solution occurs. The details and stages of the dissociation of vacancy-impurity complexes are discussed.
Acknowledgement: The research was carried out under the state assignment from the Ministry of Science and Higher Education of the Russian Federation (theme Function, No. 122021000035-6). Keywords: irradiation, electrons, electrical resistivity, Fe–Ni invar alloy, phosphorus, point defect sinks, solid solution separation References:
- Dimitrov, C. and Dimitrov, O. Composition dependence of defect properties in electron-irradiated Fe-Cr-Ni solid solutions. Journal of Physics F: Metal Physics, 1984, 14 (4), 793–811. DOI 10.1088/0305-4608/14/4/005.
- Huguenin, D., Moser, P., and Vanoni, F. Vacancy clustering in electron-irradiated FeNiCr austenitic alloys. Journal of Nuclear Materials, 1989, 169 (2), 73–78. DOI: 10.1016/0022-3115(89)90522-9.
- Chamberod, A., Laugier, J., and Pénisson, J. Electron irradiation effects on iron–nickel invar alloys. Journal of Magnetism and Magnetic Materials, 1979, 10 (2–3), 139–144. DOI: 10.1016/0304-8853(79)90165-3.
- Arbuzov, V.L., Druzhkov, A.P., and Danilov, S.E. Effects of phosphorus on defects accumulation and annealing in electron-irradiated Fe–Ni austenitic alloys. Journal of Nuclear Materials, 2001, 295 (2–3), 273–280. DOI: 10.1016/S0022-3115(01)00505-0.
- Arbuzov, V.L., Danilov, S.E., Druzhkov, A.P., and Pavlov, V.A. Accumulation and annealing of radiation defects in Fe-Ni and Fe-Ni-P electron-irradiated alloys. The Physics of Metals and Metallography, 2000, 89 (4), 373–377.
- Druzhkov, A.P., Danilov, S.E., Perminov, D.A., and Arbuzov, V.L. Formation and evolution of intermetallic nanoparticles and vacancy defects under irradiation in Fe-Ni-Al ageing alloy characterized by resistivity measurements and positron annihilation. Journal of Nuclear Materials, 2016, 476, 168–178. DOI: 10.1016/j.jnucmat.2016.04.045.
С. Е. Данилов
РАССЛОЕНИЕ В СПЛАВАХ Fe–Ni И Fe–Ni–P ПРИ ОБЛУЧЕНИИ ЭЛЕКТРОНАМИ И ИЗОХРОННОМ ОТЖИГЕ
Методом остаточного электросопротивления исследован отжиг радиационных дефектов в облученных 5-МэВ электронами сплавах Fe–Ni, и Fe–Ni–P. Показано, что при отжиге после облучения при 80 К вакансии становятся подвижными в районе 220 К с энергией миграции около 0,6 эВ. При этом образуются вакансионно-примесные комплексы (кластеры), а в сплаве Н36 – чисто вакансионные кластеры. При облучении в районе комнатных температур происходит накопление вакансионных дефектов в виде вакансионных кластеров. Диссоциация этих кластеров при температурах 350–550 К приводит к появлению свободно мигрирующих вакансий и усилению самодиффузии. Это приводит к радиационно-ускоренным процессам упорядочения в сплавах Fe–Ni и Fe–Ni–P. При температурах около 800 К происходит гомогенизация твердого раствора. Обсуждаются детали и этапы диссоциации вакансионно-примесных комплексов.
Благодарность: Исследование выполнено в рамках государственного задания Минобрнауки РФ (тема «Функция», № 122021000035-6). Ключевые слова: облучение, электроны, электросопротивление, инварный сплав Fe–Ni, фосфор, стоки точечных дефектов, расслоение твердого раствора Библиография:
- Dimitrov C., Dimitrov O. Composition dependence of defect properties in electron-irradiated Fe-Cr-Ni solid solutions // Journal of Physics F: Metal Physics. – 1984. – Vol. 14 (4). – P. 793–811. – DOI 10.1088/0305-4608/14/4/005.
- Huguenin D., Moser P., Vanoni F. Vacancy clustering in electron-irradiated FeNiCr austenitic alloys // Journal of Nuclear Materials. – 1989. – Vol. 169 (2). – P. 73–78. – DOI: 10.1016/0022-3115(89)90522-9.
- Chamberod A., Laugier J., Pénisson J. Electron irradiation effects on iron–nickel invar alloys // Journal of Magnetism and Magnetic Materials. – 1979. – Vol. 10 (2–3). – P. 139–144. – DOI: 10.1016/0304-8853(79)90165-3.
- Arbuzov V. L., Druzhkov A. P., Danilov S. E Effects of phosphorus on defects accumulation and annealing in electron-irradiated Fe–Ni austenitic alloys // Journal of Nuclear Materials. – 2001. – Vol. 295 (2–3). – P. 273–280. – DOI: 10.1016/S0022-3115(01)00505-0.
- Accumulation and annealing of radiation defects in Fe-Ni and Fe-Ni-P electron-irradiated alloys / V. L. Arbuzov, S. E. Danilov, A. P. Druzhkov, V. A. Pavlov // The Physics of Metals and Metallography. – 2000. – Vol. 89 (4). – 373–377.
- Formation and evolution of intermetallic nanoparticles and vacancy defects under irradiation in Fe–Ni–Al ageing alloy characterized by resistivity measurements and positron annihilation / S. E. Danilov, D. A. Perminov, V. L. Arbuzov // Journal of Nuclear Materials. – 2016. – Vol. 476. – P. 168–178. – DOI: 10.1016/j.jnucmat.2016.04.045.
Библиографическая ссылка на статью
Danilov S. E. Separation in Fe–ni and Fe–ni–p Alloys under Electron Irradiation and Isochronous Annealing // Diagnostics, Resource and Mechanics of materials and structures. -
2023. - Iss. 6. - P. 159-164. - DOI: 10.17804/2410-9908.2023.6.159-164. -
URL: http://dream-journal.org/issues/content/article_427.html (accessed: 10.12.2024).
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