Micro-mechanical evaluations of adhesion properties for Cr-coated accident tolerant fuel cladding

IF 2.3 2区 物理与天体物理 Q1 NUCLEAR SCIENCE & TECHNOLOGY
Jong-Dae Hong , Hongryul Oh , Daehyeok Ahn , Dongchan Jang , Hyun-Gil Kim , JaeYong Kim , Hyochan Kim , Martin Ševeček
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Abstract

The development of accident tolerant fuel (ATF) cladding has been encouraged to satisfy increased nuclear safety demands under accident conditions since Fukushima accident. Coating techniques using oxidation-resistant materials, such as Cr and Al, on existing Zr-alloy claddings have been widely applied as short-term solutions. However, coating delamination due to poor adhesion may reduce its benefits, such as low waterside corrosion/oxidation rates and fretting resistance, which necessitates accurate evaluation of coating adhesion suitability. In this study, micro-mechanical tests, micro-cantilever bending test and surface and interfacial cutting analysis system test, were conducted to qualitatively and quantitatively evaluate adhesion properties on a coated ATF cladding. In situ scanning electron microscopy-based micro-cantilever bending tests were performed using a pico-indenter equipped with a diamond flat tip. We present the results for magnetron-sputtered Cr-coated ATF claddings in detail. Micro-cantilever tests on the Cr-Zr interface revealed that deformation and failure primarily occurred in the Zr substrate, rather than at the interface. And the Cr-coated cladding showed highly adherent mechanical bonds, as evidenced by the interfacial strength and elastic modulus. SAICAS tests confirmed that peeling of the coating layer occurred only when the applied force exceeded the cutting force of the coating layer. The experimental results suggest that the Cr-coated cladding exhibited a sufficiently adherent mechanical bond to prevent delamination of the coating.
对Cr涂层耐事故燃料包壳粘附性能的微观机械评估
自福岛核事故以来,为满足事故条件下更高的核安全要求,人们一直在鼓励开发事故耐受燃料(ATF)包层。作为短期解决方案,在现有 Zr-合金包壳上使用铬和铝等抗氧化材料的涂层技术已得到广泛应用。然而,由于附着力差而导致的涂层脱层可能会降低其优势,如低水侧腐蚀/氧化率和抗烧蚀性,因此有必要对涂层附着力的适宜性进行准确评估。本研究通过微机械测试、微悬臂弯曲测试以及表面和界面切割分析系统测试,对 ATF 涂层覆层的附着性能进行了定性和定量评估。使用配备金刚石扁平针尖的皮米压头进行了基于扫描电子显微镜的原位微悬臂弯曲测试。我们详细介绍了磁控溅射铬涂层 ATF 包层的测试结果。对 Cr-Zr 界面进行的微悬臂测试表明,变形和破坏主要发生在 Zr 衬底上,而不是界面上。从界面强度和弹性模量可以看出,Cr 涂层包层显示出高度粘附的机械结合。SAICAS 试验证实,只有当施加的力超过涂层的切削力时,涂层才会发生剥离。实验结果表明,Cr 涂层覆层具有足够的粘附机械结合力,可防止涂层脱落。
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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来源期刊
Nuclear Materials and Energy
Nuclear Materials and Energy Materials Science-Materials Science (miscellaneous)
CiteScore
3.70
自引率
15.40%
发文量
175
审稿时长
20 weeks
期刊介绍: The open-access journal Nuclear Materials and Energy is devoted to the growing field of research for material application in the production of nuclear energy. Nuclear Materials and Energy publishes original research articles of up to 6 pages in length.
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