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低氧压预氧化对FeCrAlSiY合金耐LBE熔液腐蚀性能的影响
李丹虹^1,2, 江靖琛¹, 陈军修^1,3, 刘亚^1,3, 苏旭平^1,3
1.常州大学材料科学与工程学院常州 213164;2.常州工学院汽车工程学院常州 213000;3.常州大学江苏省材料表面科学与技术重点实验室常州 213164

摘要:

为进一步提高核反应堆系统的结构材料 Fe-Cr 基合金抗 LBE 腐蚀的性能，对其进行成分优化和表面处理十分重要。对 Fe-12Cr-xAl-2Si-0.6Y 合金进行低氧压预氧化试验，分析并讨论氧分压和 Al 含量对合金预氧化产物的影响，并研究预氧化前后的合金在 LBE 合金熔液中的耐腐蚀性能。结果表明，Fe-12Cr-2Al-2Si-0.6Y 合金在不同氧分压下进行预氧化后生成的表面氧化物均以 Al2O3 为主，氧分压越大，合金表面发生选择性氧化速度越快。不同 Al 含量的 Fe-12Cr-xAl-2Si-0.6Y 合金在 10^?15 atm(1 atm=0.101 3 MPa)氧分压下进行预氧化，随着 Al 含量的增加，合金表面氧化物由以 Cr₂O₃为主逐渐变为以 Al₂O₃ 为主，还混合有少量复合氧化物。进行低氧压预氧化处理能有效提高合金在 450 o C 的 LBE 合金熔液中的耐腐蚀性能。研究成果可为设计和开发耐 LBE 熔液腐蚀的 FeCrAlSiY 合金提供参考，促进该体系合金在核电工业领域的运用。

关键词: 低氧压预氧化 FeCrAlSiY 合金 LBE 熔液腐蚀

DOI：10.11933/j.issn.1007?9289.20211130001

分类号:TG174

基金项目:国家自然科学基金(51871030，52171003)、江苏省材料表面科学与技术重点实验室开放课题(KFBM20200004)和江苏省产学研合作(BY2021192)资助项目

Effect of Low Oxygen Pressure Pre-oxidation on LBE Molten Corrosion Resistance of FeCrAlSiY Alloy

LI Danhong^1,2, JIANG Jingchen¹, CHEN Junxiu^1,3, LIU Ya^1,3, SU Xuping^1,3

1.School of Materials Science and Engineering, Changzhou University, Changzhou 213164 , China;2.College of Automotive Engineering, Changzhou Institute of Technology, Changzhou 213000 , China;3.Jiangsu Key Laboratory of Material Surface Science and Technology, Changzhou University, Changzhou 213164 , China

Abstract:

In order to further improve the LBE corrosion resistance of Fe-Cr based alloy, which is the structural material of nuclear reactor system, it is very important to optimize its composition and surface treatment. The low oxygen pressure pre-oxidation experiment of Fe-12Cr-xAl-2Si-0.6Y alloy are carried out. The effects of oxygen pressure and Al content on the pre-oxidation products of the alloy are analyzed and discussed, and the corrosion resistance of the alloy in LBE alloy melt with and without pre-oxidation are studied. The results show that the surface oxides of Fe-12Cr-2Al-2Si-0.6Y alloy are mainly Al₂O₃, the higher the oxygen partial pressure is, the faster the selective oxidation occurs on the alloy surface. Fe-12Cr-xAl-2Si-0.6Y alloy with different Al content is pre-oxidized under 10^?15 atm oxygen partial pressure. Accompanied by increase of Al content, the surface oxide of the alloy gradually changes from Cr₂O₃ to Al₂O₃ with a mixture of a small amount of composite oxide. Low oxygen pressure pre-oxidation treatment can effectively improve the corrosion resistance of the alloy in 450 o C LBE alloy melt. This paper can provide a reference for the design and development of FeCrAlSiY alloy resistant to LBE melt corrosion, and promote the application of this system alloy in the field of nuclear power industry.

Key words: low oxygen pressure pre-oxidation FeCrAlSiY alloy LBE molten corrosion