Characterization of oxides on FAC susceptible small-bore carbon steel piping of a power plant

S. Nasrazadani; R. K. Nakka; D. Hopkins; J. Stevens

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Characterization of oxides on FAC susceptible small-bore carbon steel piping of a power plant

机译：电厂FAC敏感小口径碳钢管道上氧化物的表征

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Wall thinning, oxides phase(s) identification, and oxide morphology characterization of nine high-pressure turbine extraction pipes (as-found thickness for pipes A through F) received from Comanche Peak Nuclear Power Plant (CPNPP) located at Glen Rose, Texas, were studied in this investigation. Phase identification performed using Fourier Transform Infrared Spectrophotometry (FTIR) showed that maghemite (γ-Fe_2O_3), magnetite (Fe_3O_4), and trace amounts of Lepidocrocite (γ-FeOOH) were present in the oxide layer on the inside surface of these small-bore carbon steel pipes. Scallop formation and severe pitting were observed. The scallop pattern was observed utilizing an Environmental Scanning Electron Microscope (ESEM) and is attributed to removal of the protective film in a Flow-Accelerated Corrosion (FAC) process. The most severe wall thinning was observed in the vicinity of welds.

机译：从得克萨斯州格伦罗斯的科曼奇峰核电站（CPNPP）接收的9条高压涡轮抽气管（从A到F的厚度）的壁变薄，氧化物相识别和氧化物形态表征在这项调查中进行了研究。使用傅里叶变换红外分光光度法（FTIR）进行的相识别表明，在这些小孔的内表面的氧化物层中存在磁赤铁矿（γ-Fe_2O_3），磁铁矿（Fe_3O_4）和痕量的细铁云母（γ-FeOOH）。碳钢管。观察到扇贝形成和严重的点蚀。使用环境扫描电子显微镜（ESEM）观察到扇贝图案，这归因于在流动加速腐蚀（FAC）过程中去除了保护膜。在焊缝附近观察到最严重的壁变薄。

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《International Journal of Pressure Vessels and Piping》 |2009年第12期|共8页
作者
S. Nasrazadani; R. K. Nakka; D. Hopkins; J. Stevens;
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正文语种 eng
中图分类蒸汽动力工程;
关键词
Flow Acclerated Corrosion; Wall Thinning; Low carbon steel;

机译：流动加速腐蚀;壁变薄;低碳钢;

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1. Characterization of oxides on FAC susceptible small-bore carbon steel piping of a power plant [J] . S. Nasrazadani, R. K. Nakka, D. Hopkins, International Journal of Pressure Vessels and Piping . 2009,第12期

机译：电厂FAC敏感小口径碳钢管道上氧化物的表征
2. Influence of Dissolved Oxygen on Flow Accelerated Corrosion of Carbon Steel Piping in Nuclear Power Plants [J] . Sanghyun Kim Journal of Korean Institute of Metal and Materials . 2006,第2期

机译：溶解氧对核电厂碳钢管道流动加速腐蚀的影响
3. The evaluation of erosion/corrosion problems of carbon steel piping in Taiwan PWR nuclear power plant [J] . Kuen Ting, Yin Pang Ma Nuclear Engineering and Design . 1999,第2期

机译：台湾压水堆核电厂碳钢管道的腐蚀/腐蚀问题评估
4. A STUDY ON THE HYDROGEN EMBRITTLEMENT MITIGATION OF CARBON AND LOW ALLOY STEEL FOR NUCLEAR POWER PLANT PIPING [C] . Jin-Seok Park, Jong-Sung Kim, Jung-Gu Kim, International Conference on Nuclear Engineering . 2004

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5. Characterization of a carbon fiber reinforced polymer repair system for structurally deficient steel piping. [D] . Wilson, Jeffrey M. 2006

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7. Verification of Online Monitoring Method on FAC Test for Carbon Steel Piping(Maintenance Inspection and Monitoring,Power and Energy System Symposium) [O] . Yuichi KUROSAKI, Yoshio TAKAGI 2009

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8. The Design of Steel Energy-Absorbing Restrainers and Their Incorporation into Nuclear Power Plants for Enhanced Safety. Volume 1B: Stochastic Seismic Analyses of Nuclear Power Plant Structures and Piping Systems Subjected to Multiple Support Excitations [R] . Lee, M. C. , Penzien, J. 1980

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Characterization of oxides on FAC susceptible small-bore carbon steel piping of a power plant

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