摘要
基于超临界水冷堆对结构材料的需求,研究了一种低铬含铝奥氏体不锈钢(AFAs)在600℃、25 MPa的超临界水(SCW)中的均匀腐蚀行为。采用扫描电镜、能谱仪、电子背散射衍射等技术分析了氧化膜的形貌、结构和化学成分。结果表明,低铬AFAs在SCW中腐蚀动力学符合抛物线规律。Al、Cr含量较低,不足以维持独立的氧化铝膜的形成,而是形成外层为磁铁矿、内层为Cr-Al混合氧化物的双层氧化膜结构。这种氧化膜的保护性较差,对低铬AFAs长期腐蚀不利。本研究揭示了低铬AFAs在SCW中的腐蚀机理,并指出充足的Cr、Al含量是材料在SCW中维持耐腐蚀性的基础。本研究可为超临界水冷堆结构材料选用及AFAs研发提供数据支持。
Owing to the Al addition,alumina-forming austenitic stainless steel(AFAs)exhibits excellent oxidation resistance in high-temperature oxidizing environments such as supercritical water(SCW)or steam by forming a continuous alumina scale.Therefore,AFAs have merged as candidate materials for cladding materials for supercritical water-cooled reactor(SCWR).However,AFAs intended for SCWR are scarce,which has limited its application.The general corrosion behavior of a novel low-chromium AFAs was investigated in 600℃,25 MPa SCW based on the demand for structural material for SCWR.This low-chromium AFAs with nominal chemical compositions of 14Cr-24Ni-2.5Al-2Mo-0.05Mn,was prepared by vacuum induction melting.The ingots were solution-treated at 1200℃for 1 h,and quenched with water,and then aged at 700℃for 100 h,cooled using air.The specimens with a dimension of 20 mm×10 mm×2 mm were machined from the heat-treated ingots and carefully abraded and polished to achieve mirror-surface conditions.All specimens were cleaned with ethanol prior to be exposure to SCW for a maximum of 1000 h.Oxidation tests were performed in an autoclave connected to a water chemistry control loop.Changes in the weight of each specimen were measured and averaged to calculate the weight gain per unit area.SEM,EDS,and EBSD technologies were used to examine the morphologies,microstructures,and chemical compositions of oxide films.The results show that the change of weight gain with time follows a parabolic law.When exposed to SCW,the low-chromium AFAs has created a dual-layer structure with an outer layer of magnetite(Fe3O4)and an inner layer of mixed Cr-Al oxide film.The lower Cr and Al concentration is insufficient to maintain the formation of independent alumina film.In the absence of an effective protective oxide film,the Fe in the alloy can diffuse outward unrestricted to the surface of the specimen and form a columnar crystal of magnetite.The outer oxide film is replenished with sufficient Fe to allow the magnetite particles to continue to grow,eventually forming a porous outer magnetite layer.The porous outer Fe oxide film provides little obstruction to oxidizing specimen inward diffusion.Therefore,the low-chromium AFAs display poor long-term corrosion behavior with this dual-layer oxide film because it is less protective.This paper explains how low-chromium AFAs corrode when exposed to SCW and emphasizes the importance of materials with enough Cr and Al to maintain high corrosion resistance in this environment.The development of AFAs and the choice of structural materials for SCWR are also aided by the data provided by this study.
作者
高阳
郭相龙
周张健
张乐福
GAO Yang;GUO Xianglong;ZHOU Zhangjian;ZHANG Lefu(School of Nuclear Science and Engineering,Shanghai Jiao Tong University,Shanghai 200240,China;School of Materials Science and Engineering,University of Science and Technology Beijing,Beijing 100083,China)
出处
《原子能科学技术》
EI
CAS
CSCD
北大核心
2024年第6期1335-1343,共9页
Atomic Energy Science and Technology
基金
国家重点研发计划(2018YFE0116200)。
关键词
超临界水
含铝奥氏体不锈钢
均匀腐蚀
氧化铝膜
磁铁矿
supercritical water
alumina-forming austenitic stainless steel
general corrosion
alumina film
magnetite