V. I. Voronin, V. L. Arbuzov, V. I. Bobrovskii, S. E. Danilov, K. A. Kozlov, N. V. Proskurnina, V. V. Sagaradze
PECULIARITIES OF RADIATION-INDUCED PROCESSES IN THE Cr-Ni-Mo AUSTENITIC STEELS STUDIED BY NEUTRON DIFFRACTION
DOI: 10.17804/2410-9908.2015.5.080-089 Understanding the mechanisms of radiation-induced phenomena in FCC-materials is of fundamental significance for the development of new austenitic reactor steels. An important role in these phenomena, along with the crystal structure and chemical composition of the matrix, belongs to doping elements and the microstructure of the material. In this paper, peculiarities of competing processes that proceed under fast neutron irradiation in Cr-Ni-Mo steels doped with Ti are studied by means of neutron diffraction. It is demonstrated that, on the one hand, new Ni3Ti g¢-phase particles are formed and, on the other hand, they dissolve to form interstitial Ti atoms. Besides, there is radiation-induced relaxation of microscopic stresses, which, in the case of large neutron fluences, overlaps with additional microstresses resulting from the accumulation of radiation-induced defects. The observed effects agree with the results we obtained for other austenitic steels.
Keywords: austenitic reactor steels, radiation damages, defects, radiation-induced processes, doping, neutron diffraction References:
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В. И. Воронин, В. Л. Арбузов, В. И. Бобровский, С. Е. Данилов, К. А. Козлов, Н. В. Проскурнина, В. В. Сагарадзе
НЕЙТРОННО-ДИФРАКЦИОННЫЕ ИССЛЕДОВАНИЯ ОСОБЕННОСТЕЙ РАДИАЦИОННО-ИНДУЦИРОВАННЫХ ПРОЦЕССОВ В ХРОМ-НИКЕЛЬ-МОЛИБДЕНОВЫХ АУСТЕНИТНЫХ РЕАКТОРНЫХ СТАЛЯХ
Понимание механизмов радиационно-индуцированных явлений в ГЦК материалах имеет фундаментальное значение для разработки новых аустенитных реакторных сталей. В этих явлениях помимо кристаллической структуры и химического состава матрицы важнейшую роль играют легирующие примеси и микроструктурное состояние материалов. В работе средствами нейтронографии вскрыты особенности конкурентных процессов, протекающих при облучении быстрыми нейтронами в легированных титаном хром-никель-молибденовых сталях. Показано, что, с одной стороны, происходит образование новых частиц g¢-фазы Ni3Ti, а с другой – идет их растворение с образованием междоузельных атомов титана. Также протекают процессы радиационно-стимулированной релаксации микронапряжений, перекрывающиеся в случае больших нейтронных флюенсов возникновением дополнительных микронапряжений вследствие накопления радиационных дефектов. Наблюдавшиеся эффекты согласуются с результатами, полученными авторами для других аустенитных сталей.
Ключевые слова: аустенитные реакторные стали, радиационно-индуцированные процессы, легирование, нейтронная ди-фракция Библиография:
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Библиографическая ссылка на статью
Peculiarities of Radiation-Induced Processes in the Cr-Ni-Mo Austenitic Steels Studied by Neutron Diffraction / V. I. Voronin, V. L. Arbuzov, V. I. Bobrovskii, S. E. Danilov, K. A. Kozlov, N. V. Proskurnina, V. V. Sagaradze // Diagnostics, Resource and Mechanics of materials and structures. -
2015. - Iss. 5. - P. 80-89. - DOI: 10.17804/2410-9908.2015.5.080-089. -
URL: http://dream-journal.org/issues/content/article_46.html (accessed: 21.12.2024).
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