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高Ta钛合金在沸腾硝酸中的腐蚀行为 被引量:7

Corrosion Behavior of Ti-32Ta Alloy in Boiling Nitric Acid
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摘要 对高Ta含量钛合金Ti-32Ta在8 mol/L沸腾硝酸溶液中进行了全浸腐蚀实验,研究了Ti-32Ta合金在沸腾硝酸中的腐蚀行为。采用扫描电子显微镜(SEM)、X射线衍射(XRD)、X射线衍射光电子能谱(XPS)等分析方法对钛合金腐蚀表面的钝化膜进行了成分、组织结构及合金价态分析。结果表明:Ti-32Ta合金在沸腾硝酸溶液中呈现均匀腐蚀行为,在介质中通入一定流量的新鲜空气对合金稳定腐蚀阶段的腐蚀速率影响不大。与Ti-6Ta合金相比,Ti-32Ta合金腐蚀后形成的钝化膜更薄更致密,耐蚀性能更好。两种合金腐蚀钝化膜中Ti和Ta的价态组成相同,Ti-32Ta合金腐蚀表面Ta及Ta2O5的含量高于Ti-6Ta合金腐蚀表面。 The anticorrosion titanium alloy Ti-32Ta was corroded evenly in boiling nitric acid of 8mol/L, the corrosion behavior in boiling nitric acid has been researched. The chemical composition, structure and valence state of the surface passive film were analyzed by SEM, XRD and XPS. The results show that Ti-32Ta alloy corrosion in boiling nitric acid is a uniform behavior. Little effect is on the corrosion rate of the stable corrosion alloy when the fresh air is pumped into boiling nitric acid. The passive film of Ti-32Ta alloy is thinner, more compact and has better corrosion resistance than Ti-6Ta alloy. The valence state of Ti and Ta in the passive film of two alloys is the same, and the contents of Ta and Ta205 in the Ti-32Ta alloy corrosion surface are higher than in the Ti-6Ta alloy.
作者 杨帆 巨建辉 毛小南 吴金平 杨英丽
机构地区 西安建筑科技大学 西北有色金属研究院
出处 《钛工业进展》 CAS 2014年第6期17-21,共5页 Titanium Industry Progress
基金 陕西省重点科技创新团队计划"钛合金研发创新团队"(2012KCT-23)
关键词 钛合金 腐蚀 氧化膜 titanium alloy corrosion oxidation film
分类号 TG146.23 [金属学及工艺—金属材料] TG172 [金属学及工艺—金属表面处理]
作者简介 通信作者:杨帆(1989-),男,硕士研究生。
  • 相关文献

参考文献12

  • 1Raj B, Kamachi Mudali U. Materials development and corrosion problems in nuclear fuel reprocessing plants [ J ]. Progress in Nuclear Energy, 2006, 48(4): 283-313.
  • 2Kamachi Mudali U, Ravishankar A, Ningshen S, et al. Materials development and corrosion issues in the back end of fuel cycle[ J]. Energy Procedia, 2011, 7 : 468 -473.
  • 3宋品玲,吴金平,杨英丽.Ti-6Ta合金等离子焊焊接接头的组织与性能[J].钛工业进展,2013,30(6):30-33. 被引量:4
  • 4Balbaud F, Sanchez G, Fauvet P, et al. Mechanism of corrosion of AISI 304L stainless steel in the presence of nitric acid condensates [ J ]. Corrosion Science, 2000, 42 ( 10 ) : 1685 - 1707.
  • 5Ningshen S, Kamachi U, Mukherjee P, et al. Influence of oxygen ion irradiation on the corrosion aspects of Ti-5% Ta- 2% Nb alloy and oxide coated titanium[ J]. Corrosion Science, 2008, 50(8) : 2124 -2134.
  • 6Tonpe S, Saibaba N, Jayaraj R N, et al. Process development for fabrication of Zircaloy-4 dissolver assembly for reprocessing of spent nuclear fuel[J]. Energy Proeedia, 2011, 7:459 - 467.
  • 7Nagano H, Kajimura H. The stress corrosion cracking performance of pure zirconium and zirconium alloys in highly oxidizing nitric acid [ J ]. Corrosion Science, 1996, 38 (5) : 781 -791.
  • 8Yamamot T, Tsukui S, Okamoto S, et al. Gamma-ray irradia- tion effect on corrosion rates of stainless steel, Ti and Ti-5Ta in boiling 9N nitric acid[ J]. Journal of Nuclear Materials, 1996, 228(2) : 162 - 167.
  • 9Sano Y, Takeuchi M, Nakajima Y, et al. Effect of metal ions in a heated nitric acid solution on the corrosion behavior of a titanium-5% tantalum alloy in the hot nitric acid condensate [J]. Journal of Nuclear Materials, 2013, 432 (1/3) : 475 -481.
  • 10Kapoor K, Kain V, Gopalkrishan T, et al. High corrosion resistant Ti-5% Ta-1.8% Nb alloy for fuel reprocessing application [ J ]. Journal of Nuclear Materials, 2003, 322 (1) : 36 -44.

二级参考文献10

  • 1徐潇潇,崔岚,邱绍宇,李思凡,盛钟琦,邰江.Ti-5%Ta钛合金在乏燃料模拟溶解液中的腐蚀行为[J].核动力工程,2005,26(4):406-409. 被引量:11
  • 2吴金平 杨英丽 赵恒章等.焊接热循环对Ti35钛合金组织性能的影响.中国有色金属学报,2010,20(1):650-653.
  • 3Mudali U K , Dayal R K , Gnanamoorthy J B . Corrosion Studies on Materials of Construction for Spent Nuclear Fuel Reprocessing Plant Equipment[ J]. Journal of Nuclear Mate- rials, 1993, 203(1/2) : 73 -82.
  • 4Roderick Hydea, Muriel Ishikawa, Nathan Myhrvoldb, et al. Nuclear Fission Power for 21st Century Needs: Enabling Technologies for Large-scale, Low-risk, Affordable Nuclear Electricity[ J ]. Progress in Nuclear Energy, 2008, 50 (2/ 6) : 82 -91.
  • 5Dey P K , Bansal N K . Spent Fuel Reprocessing: A Vital Link in Indian Nuclear Power Program [ J ]. Nuclear Engi- neering and Design, 2006, 236 (7/8) : 723 - 729.
  • 6Kapoor K, Kain V, Gopalkrishan T, et al. High Corrosion Resistant Ti-5% Ta-1.8% Nb Alloy for Fuel Reprocessing Application[ J ]. Journal of Nuclear Materials, 2003, 322: 36 - 44.
  • 7Raj B, Mudali U K . Materials Development and Corrosion Problems in Nuclear Fuel Reprocessing Plants [ J ]. Progress in Nuclear Energy, 2006, 48(4) : 283 -313.
  • 8Karen Alves de Souza, Alain Robin. Preparation and Charac- terization of Ti-Ta Alloys for Application in Corrosive Media [J]. Materials Letters, 2003, 57:3010-3016.
  • 9Takafumi Motooka, Kiyoshi Kiuchi. Corrosion fatigue of re- fractory materials in boiling nitric Acid[ J]. Materials Trans- actions, 2002, 43(5) : 1220 - 1224.
  • 10吴金平,杨英丽,奚正平,孙军.Ti35合金焊接接头在高温硝酸中的腐蚀性能研究[J].钛工业进展,2012,29(1):22-25. 被引量:13

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钛工业进展
2014年 第6期

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