Desorption of Implanted Deuterium in Heavy Ion-Irradiated Zry-2

IF 1.3 Q3 INSTRUMENTS & INSTRUMENTATION

Quantum Beam Science Pub Date : 2021-04-26 DOI:10.3390/QUBS5020009

Hideo Watanabe, Yoshiki Saita, Katsuhito Takahashi, K. Yasunaga

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引用次数: 1

Abstract

To understand the degradation behavior of light water reactor (LWR) fuel-cladding tubes under neutron irradiation, a detailed mechanism of hydrogen pickup related to the point defect formation (i.e., a-component and c-component dislocation loops) and to the dissolution of precipitates must be elucidated. In this study, 3.2 MeV Ni3+ ion irradiation was conducted on Zircaloy-2 samples at room temperature. Thermal desorption spectroscopy is used to evaluate the deuterium desorption with and without Ni3+ ion irradiation. A conventional transmission electron microscope and a spherical aberration-corrected high-resolution analytical electron microscope are used to observe the microstructure. The experimental results indicate that radiation-induced dislocation loops and hydrides form in Zircaloy-2 and act as major trapping sites at lower (400–600 °C) and higher (700–900 °C)-temperature regions, respectively. These results show that the detailed microstructural changes related to the hydrogen pickup at the defect sinks formed by irradiation are necessary for the degradation of LWR fuel-cladding tubes during operation.

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重离子辐照Zry-2中注入氘的解吸

为了了解轻水反应堆（LWR）燃料包壳管在中子辐照下的降解行为，必须阐明与点缺陷形成（即a组分和c组分位错环）和沉淀物溶解有关的氢吸收的详细机制。本研究在室温下对锆合金-2样品进行了3.2MeV Ni3+离子辐照。热解吸光谱用于评估在有和没有Ni3+离子照射的情况下氘的解吸。使用传统的透射电子显微镜和球面像差校正的高分辨率分析电子显微镜来观察微观结构。实验结果表明，辐射诱导的位错环和氢化物在锆合金2中形成，并分别在较低（400–600°C）和较高（700–900°C）的温度区域充当主要的捕获位点。这些结果表明，与辐照形成的缺陷汇处的氢吸收有关的详细微观结构变化对于LWR燃料包壳管在运行过程中的退化是必要的。

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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