Corrosion of alumina-forming austenitic steel Fe–20Ni–14Cr–3Al–0.6Nb–0.1Ti in supercritical water

S.H. Nie; Y. Chen; X. Ren; K. Sridharan; T.R. Allen

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Corrosion of alumina-forming austenitic steel Fe–20Ni–14Cr–3Al–0.6Nb–0.1Ti in supercritical water

机译：氧化铝形成的奥氏体钢Fe–20Ni–14Cr–3Al–0.6Nb–0.1Ti在超临界水中的腐蚀

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The oxidation behavior of alumina-forming austenitic (AFA) steel Fe–20Ni–14Cr–3Al–0.6Nb–0.1Ti has been examined after exposure to supercritical water (SCW) at 500 °C and 25 MPa pressure and with a dissolved oxygen content of 25 wppb, for exposure periods of 1300 h, 1700 h and 3000 h. A double layer oxide structure developed on all samples, consisting specifically of a Fe-rich outer hematite layer and an inner layer of Al–Cr–Fe-rich oxide containing a small fraction of FCC Ni-rich metal. Additionally, a thin Ni-rich layer in the bulk alloy close to the oxide/metal interface was also observed. Based on weight gain measurements, the oxidation resistance of the AFA steel was superior to other austenitic alloys, 800H, D9, and 316 stainless steel, tested under similar conditions. The formation of the protective Al–Cr–Fe-rich oxide layer may provide good long-term protection against corrosion in SCW environment.

机译：在暴露于500°C和25 MPa压力的超临界水（SCW）中并溶解了氧的情况下，已经检验了氧化铝形成奥氏体（AFA）钢Fe–20Ni–14Cr–3Al–0.6Nb–0.1Ti的氧化行为25 wppb，暴露时间为1300 h，1700 h和3000 h。在所有样品上都形成了双层氧化物结构，特别是由富铁的外部赤铁矿层和内层的Al-Cr-Fe富集氧化物组成，内层包含一小部分FCC富镍金属。另外，还观察到在块状合金中靠近氧化物/金属界面的富镍薄层。根据重量增加的测量，AFA钢的抗氧化性优于其他奥氏体合金800H，D9和316不锈钢（在类似条件下进行测试）。富含Al-Cr-Fe的保护性氧化物层的形成可为SCW环境中的腐蚀提供良好的长期保护。

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《Journal of Nuclear Materials: Materials Aspects of Fission and Fusion》 |2010年第3期|共5页
作者
S.H. Nie; Y. Chen; X. Ren; K. Sridharan; T.R. Allen;
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Corrosion; Fe–20Ni–14Cr–3Al–0.6Nb–0.1Ti; supercritical water;

机译：腐蚀;Fe-20Ni-14Cr-3Al-30.6Nb-0.1Ti;超临界水;

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1. Corrosion of alumina-forming austenitic steel Fe–20Ni–14Cr–3Al–0.6Nb–0.1Ti in supercritical water [J] . S.H. Nie, Y. Chen, X. Ren, Journal of Nuclear Materials: Materials Aspects of Fission and Fusion . 2010,第2a3期

机译：氧化铝形成的奥氏体钢Fe–20Ni–14Cr–3Al–0.6Nb–0.1Ti在超临界水中的腐蚀
2. Effect of exposure temperature on the corrosion behaviors of TP347H austenitic stainless steel in supercritical water [J] . Chen Hongsheng, Tang Rui, Long Chongsheng, Corrosion science . 2019,第Deca期

机译：暴露温度对TP347H奥氏体不锈钢在超临界水中腐蚀行为的影响
3. Characterizing the effects of in-situ sensitization on stress corrosion cracking of austenitic steels in supercritical water [J] . Chen Kai, Wang Jiamei, Du Donghai, Scripta materialia . 2019,第期

机译：表征原位敏化对超临界水中奥氏体钢应激腐蚀开裂的影响
4. Oxidation and Corrosion Behavior of a 14Cr Oxide Dispersion Strengthened Ferritic Steel Applied for Supercritical Water Reactor [C] . Lu Liao, Zhangjian Zhou, Ming Li, 8th International Topical Meeting on Nuclear Thermal-Hydraulics, Operation and Safety. . 2010

机译：超临界水反应堆中14Cr氧化物弥散强化铁素体钢的氧化和腐蚀行为
5. Understanding the Deformation Behavior of Alumina-Forming Austenitic Stainless Steels [D] . Peterson, Andrew. 2021

机译：了解氧化铝形成奥氏体不锈钢的变形行为
6. Microstructure and Mechanical Properties of 4Al Alumina-Forming Austenitic Steel after Cold-Rolling Deformation and Annealing [O] . Chenchen Jiang, Qiuzhi Gao, Hailian Zhang, 2020

机译：冷轧变形退火后形成4Al氧化铝的奥氏体钢的组织和力学性能
7. Investigation of microstructure and liquid lead corrosion behavior of a Fe-18Ni-16Cr-4Al base alumina-forming austenitic stainless steel [O] . Lingzhi Chen, Man Wang, Valentyn Tsisar, 2020

机译：Fe-18Ni-16Cr-4AL-4AL-1铝铝形成奥氏体不锈钢的微观结构和液体引出腐蚀行为的研究

Corrosion of alumina-forming austenitic steel Fe–20Ni–14Cr–3Al–0.6Nb–0.1Ti in supercritical water

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