Electrochemical Measurement of Radio-Activated Metal Under High Temperature Condition

Volume 9: Student Paper Competition Pub Date : 2018-07-22 DOI:10.1115/ICONE26-81727

R. Taguchi, T. Ihara, T. Hazuku, T. Takamasa, S. Kano, H. Abe

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Abstract

Fundamental knowledge of electrochemical characteristics of metals under high temperature and radiation conditions is important in development of reactor core materials for light water reactors including a supercritical water-cooled reactor (SCWR). In the past studies, however, the majority of electrochemical measurements of the metals have been conducted at temperatures less than 290 °C and under a non-radiation condition. On the other hand, the radiation induced surface activation (RISA) which enhances of wettability and anticorrosive effect on metal surfaces was first revealed by authors in 1999. This study is aimed to confirm the RISA effect experimentally under high temperature conditions. The electrochemical characteristics measurement of a specimen immersed in pure water in an autoclave were performed at temperatures up to 300 °C. A normal 304 stainless-steel and a radioactivated 304 stainless-steel were used as the specimen. The radioactivated specimen was made by 140 MeV irradiation of C4+ ion beam at a cyclotron accelerator of Tohoku University in Japan. The experimental results showed that the corrosion potential of specimen was lowered due to radioactivation.

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高温条件下放射性活化金属的电化学测量

了解金属在高温和辐射条件下的电化学特性对包括超临界水冷堆(SCWR)在内的轻水堆堆芯材料的开发至关重要。然而，在过去的研究中，大多数金属的电化学测量都是在低于290°C的温度下进行的，并且是在非辐射条件下进行的。另一方面，辐射诱导表面活化(RISA)可以增强金属表面的润湿性和防腐效果，这是作者在1999年首次发现的。本研究旨在通过实验验证高温条件下的RISA效应。在高达300°C的高压灭菌器中浸泡在纯水中的样品的电化学特性测量。采用普通304不锈钢和放射性304不锈钢作为试样。在日本东北大学的回旋加速器上，用140 MeV的C4+离子束辐照制备了放射性试样。实验结果表明，由于放射性的作用，试样的腐蚀电位降低。

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Volume 9: Student Paper Competition

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