中子辐照316不锈钢挡板成形螺栓的使用腐蚀和晶界氧化

IF 7.4 1区材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY

Corrosion Science Pub Date : 2025-06-09 DOI:10.1016/j.corsci.2025.113106

Timothy G. Lach , Maxim N. Gussev , Xiang (Frank) Chen

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引用次数: 0

摘要

在反应堆运行过程中，堆芯内部部件，如折流板前螺栓（BFBs），会受到明显的机械应力、腐蚀性环境和来自堆芯的中子辐照。在长时间的运行过程中，这些条件会导致螺栓的潜在退化。在这项工作中，对经过40年运行的商业压水堆（PWR）收集的不锈钢bfb的氧化表面进行了表征。分析表明，形成了一种复杂的六层复合表面氧化物，不同于模型实验中常见的两层结构。氧化物因成分（主要是铁、铬和镍）、晶粒尺寸和相而异，并且具有类似于未辐照和辐射/腐蚀实验的特征，这可能是由于与离子辐照或试验反应堆辐射相比，辐射通量较低。此外，晶界氧化攻击是铁和其他元素从金属基体向最外层氧化物移动的途径。研究结果有助于评估压水堆的寿命延长，结合以往的实验研究，并为设计辐射和腐蚀效应相结合的实验提供参考。

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In-service corrosion and grain boundary oxidation in neutron-irradiated 316 stainless steel baffle-former bolts

Reactor core internal components such as baffle-former bolts (BFBs) are subjected to significant mechanical stress, corrosive environment, and neutron irradiation from the reactor core during the plant operation. Over the long operation period, these conditions lead to potential degradation and of the bolts. In this work, characterization was performed on the oxidized surface of stainless steel BFBs harvested from a commercial pressurized water reactor (PWR) after 40 years of operation. The analysis shows that a complex multilayered surface oxide with six identified layers formed that is different from 2-layer structure commonly observed in model experiments. The oxide varies by composition – predominantly Fe, Cr, and Ni, grain size, and phase, and has features resembling both unirradiated and radiation/ corrosion experiments likely due to the low radiation flux compared to ion-irradiation or the test reactor radiation. In addition, grain boundary oxidative attack featured a pathway for Fe and other elements to move from the metal matrix to the outermost oxide. The results help assess PWR lifetime extension, put into context previous experimental studies, and provide input for designing experiments combining radiation and corrosion effects.

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来源期刊

Corrosion Science 工程技术-材料科学：综合

CiteScore

13.60

自引率

18.10%

发文量

763

审稿时长

46 days

期刊介绍： Corrosion occurrence and its practical control encompass a vast array of scientific knowledge. Corrosion Science endeavors to serve as the conduit for the exchange of ideas, developments, and research across all facets of this field, encompassing both metallic and non-metallic corrosion. The scope of this international journal is broad and inclusive. Published papers span from highly theoretical inquiries to essentially practical applications, covering diverse areas such as high-temperature oxidation, passivity, anodic oxidation, biochemical corrosion, stress corrosion cracking, and corrosion control mechanisms and methodologies. This journal publishes original papers and critical reviews across the spectrum of pure and applied corrosion, material degradation, and surface science and engineering. It serves as a crucial link connecting metallurgists, materials scientists, and researchers investigating corrosion and degradation phenomena. Join us in advancing knowledge and understanding in the vital field of corrosion science.