Haozheng J. Qu, Liang Yin, Michael Larsen, R. B. Rebak
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引用次数: 0
摘要
铁铬铝合金(FeCrAl)的耐腐蚀性能在近一个世纪前就已为人所知。自 20 世纪 50 年代以来,人们一直在探索将它们应用于核能发电。在过去的十年中,重点是将铁铬铝用作轻水反应堆(LWR)中二氧化铀燃料的包壳。这种合金的耐腐蚀性取决于其表面可能形成的氧化物。在 300 °C 附近的轻水反应堆中,铁铬铝包层的外表面氧化物在氧化条件下可能富含铁,而在还原条件下则富含铬。如果发生事故,堆芯暴露在过热蒸汽中,堆芯将通过在表面形成一层α铝膜来保护自己。
Distinctive Oxide Films Develop on the Surface of FeCrAl as the Environment Changes for Nuclear Fuel Cladding
The corrosion-resistant properties of IronChromium–Aluminum (FeCrAl) alloys have been known for nearly a century. Since the 1950s, they have been explored for application in the generation of nuclear power. In the last decade, the focus has been on the use of FeCrAl as cladding for uranium dioxide fuel in light water reactors (LWRs). The corrosion resistance of this alloy depends on the oxide that it can develop on the surface. In LWRs in the vicinity of 300 °C, the external surface oxide of the FeCrAl cladding could be rich in Fe under oxidizing conditions but rich in Cr under reducing conditions. If there is an accident and the cladding is exposed to superheated steam, the cladding will protect itself by developing an alpha aluminum film on the surface.
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