Stability of the Y–Ti–O oxides in reactor materials under neutron irradiation at high temperatures

Voprosy Materialovedeniya Pub Date : 2022-11-01 DOI:10.22349/1994-6716-2020-104-4-109-130

A. Frolov, E. Kuleshova, B. Gurovich, A. A. Nikitina, D. Maltsev, S. Fedotova, D. Safonov

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Abstract

The paper presents the results of electron microscopic studies of ferrite-martensitic steel samples hardened with Y-O oxides, EP-450 DUO in the initial state and after neutron irradiation in the BN-600 reactor at 1000°C to a damaging dose of 77.5 dpa. These studies showed that the main types of oxide phases were Y2(Si, Ti)2O7 and Y2(Si, Ti)O5. These precipitates at sizes less than 10-20 nm were semi-coherent with a ferritic matrix of steel EP-450 DUO with the ratio (110)malrix//(221)palticle. Some of the Y-Ti-O oxides in the initial state were Y2Ti2O7-type with some deviations from the stoichiometric composition.However, after neutron irradiation under BN-600 conditions at temperature ~ 1000°C, oxide particles could not be described by the indicated stoichiometry. Besides, after irradiation, silicon and aluminum were found in the oxide's composition. In the case of taking these elements into account during the construction of a triple composition diagram, it was shown that the oxide phases had Y2(Ti, Si, Al)2O7 and Y2(Ti, Si, Al)O5 types. It was established that in samples of EP-450 DUO steel in the initial state with oxide particles up to 20 nm in size, the yttrium content is generally lower than the titanium concentration. The titanium and yttrium concentrations corresponded to the stoichiometric composition Y2Ti2O7 (1:1) with a further increase in the average diameter of these phases. After irradiation, the situation changed somewhat: the yttrium content in most oxide phases exceeds the total concentration of titanium, silicon, and aluminum.The paper also presents the analysis of porosity and evolution of grain structure in EP-450 DUO steel after neutron irradiation.

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高温中子辐照下反应堆材料中Y-Ti-O氧化物的稳定性

本文介绍了铁素体-马氏体钢样品在初始状态下经Y-O氧化物和EP-450 DUO淬火，并在BN-600反应堆中以1000℃77.5 dpa的损伤剂量辐照后的电镜研究结果。这些研究表明，氧化相的主要类型是Y2(Si, Ti)2O7和Y2(Si, Ti)O5。晶粒尺寸小于10 ~ 20 nm的析出相为EP-450 DUO钢的铁素体半共晶基体，基体/颗粒比例为(110)/(221)。初始态的部分Y-Ti-O氧化物为y2ti2o7型，与化学计量组成有一定偏差。然而，在BN-600条件下，在温度~ 1000°C的中子辐照后，氧化物颗粒不能用指示的化学计量来描述。此外，辐照后的氧化物成分中还含有硅和铝。在构建三重成分图时考虑这些元素的情况下，表明氧化相为Y2(Ti, Si, Al)2O7和Y2(Ti, Si, Al)O5型。结果表明，在EP-450 DUO钢初始态样品中，氧化颗粒粒径达20 nm，钇含量普遍低于钛浓度。随着这些相的平均直径进一步增大，钛和钇的浓度与化学计量组成Y2Ti2O7(1:1)相一致。辐照后，情况有所改变:大多数氧化相中钇的含量超过钛、硅和铝的总浓度。本文还对EP-450 DUO钢在中子辐照后的孔隙率和晶粒组织演变进行了分析。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Voprosy Materialovedeniya

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