An hydrogen evolution method for the estimation of the oxide scale growth on reactor alloys in supercritical water

Kashif I. Choudhry; Igor M. Svishchev

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An hydrogen evolution method for the estimation of the oxide scale growth on reactor alloys in supercritical water

机译：超临界水中反应器合金对氧化物尺度生长的氢气进化法

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Abstract

This study demonstrates the use of the hydrogen evolution method to estimate the weight gain and thickness of the oxide layer formed on stainless steel 316 and Alloy 800H tubing, exposed to supercritical water. The estimated weight gain of both materials follows a roughly parabolic rate law. Weight gain due to the oxidation after 300?h of exposure was found to be about 1.5 times larger in the SS316 compared to Alloy 800H. This method can be used for monitoring the corrosion behavior of nuclear reactor materials, without the need to interrupt the experiment and remove corrosion coupons.

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本研究表明使用氢气进化方法来估计形成的氧化物层的重量增益和厚度不锈钢316和合金800H管，暴露于超临界水。两种材料的估计体重增加均遵循大致抛物线法律。与合金800h相比，发现在300℃的氧化之后由于氧化而导致的重量增益在SS316中具有约1.5倍。该方法可用于监测核反应堆材料的腐蚀行为，而无需中断实验并去除腐蚀优惠券。 ] ]

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《Journal of Nuclear Materials: Materials Aspects of Fission and Fusion》 |2017年第2017期|共4页
作者
Kashif I. Choudhry; Igor M. Svishchev;
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作者单位

Trent University Department of Chemistry;

Trent University Department of Chemistry;

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原文格式 PDF
正文语种 eng
中图分类原子能技术;
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1. An hydrogen evolution method for the estimation of the oxide scale growth on reactor alloys in supercritical water [J] . Kashif I. Choudhry, Igor M. Svishchev Journal of Nuclear Materials: Materials Aspects of Fission and Fusion . 2017,第期

机译：超临界水中反应器合金对氧化物尺度生长的氢气进化法
2. Corrosion of engineering materials in a supercritical water cooled reactor: Characterization of oxide scales on Alloy 800H and stainless steel 316 [J] . Choudhry Kashif I., Mahboubi Shooka, Botton Gianluigi A., Corrosion science . 2015,第NOVa期

机译：工程材料在超临界水冷反应堆中的腐蚀：800H合金和316不锈钢上氧化皮的表征
3. Oxidation of Alloy 600 and Alloy 690: Experimentally Accelerated Study in Hydrogenated Supercritical Water [J] . Moss Tyler, Cao Guoping, Was Gary S. Metallurgical and Materials Transactions, A. Physical Metallurgy and Materials Science . 2017,第4期

机译：合金600和合金690的氧化：氢化超临界水的实验加速研究
4. OXIDE SCALES FORMED ON AUSTENITIC Fe-Cr-Ni ALLOYS EXPOSED TO SUPERCRITICAL WATER: ROLE OF ALLOYING ELEMENTS [C] . S. Mahboubi, G.A. Botton, J. Kish Pacific basin nuclear conference . 2014

机译：在超临界水中暴露的奥氏体Fe-Cr-Ni合金上形成的氧化物垢：合金元素的作用
5. Design of a Small-Scale Mixing Section for a Supercritical Water Reactor through the Finite Volume Method [D] . Tiwari, Kartik. 2018

机译：通过有限体积法设计超临界水反应器的小规模混合部分
6. Supercritical water gasification: practical design strategies and operational challenges for lab-scale continuous flow reactors [O] . Brian R. Pinkard, David J. Gorman, Kartik Tiwari, 2019

机译：超临界水气化：实验室规模的连续流反应器的实用设计策略和操作挑战
7. Hydrogen diffusion process in the oxides formed on Zirconium Alloys during corrosion in Pressurized Water Reactor Conditions [O] . Tupin, Marc, Martin, Frantz, Bisor, Caroline, 2016

机译：压水堆条件下腐蚀过程中锆合金上形成的氧化物中的氢扩散过程

An hydrogen evolution method for the estimation of the oxide scale growth on reactor alloys in supercritical water

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