Corrosion Behavior of a Titanium Alloy in Hot Nitric Acid Condensate 被引量：1

Corrosion Behavior of a Titanium Alloy in Hot Nitric Acid Condensate

下载PDF

导出

摘要 The corrosion behavior of a titanium-5% tantalum alloy （Ti-STa） in hot nitric acid condensate was investigated to understand aging behavior ofreprocessing equipments. On the basis of long-term immersion tests, it was determined that the corrosion of Ti-STa in nitric acid condensate is accelerated with an increase in the concentration. The corrosion rate was nearly constant during the immersion test and the coupons suffered from uniform corrosion. In addition, it is important to note that the nitric acid concentration in the condensate increased on addition of metal salts to the heated nitric acid solution. The larger valence of metal ions was contributed to the increase in the concentration of nitric acid condensate. Consequently, the metal salt in the heated nitric acid solution accelerates the corrosion of Ti-STa in the condensate. Therefore, the nitric acid condensate condition should be carefully considered for the corrosion environment of titanium and its alloys.

作者 Masayuki Takeuchi Yuichi Sano Yasuo Nakajima Gunzo Uchiyama Yasuo Nojima Sachio Fujine

机构地区 Japan Atomic Energy Agency Japan Nuclear Energy Safety Organization

出处《Journal of Energy and Power Engineering》 2013年第6期1090-1096,共7页 能源与动力工程（美国大卫英文）

关键词 Titanium-5% tantalum alloy corrosion spent nuclear fuel reprocessing nitric acid condensate metal salt effect Gibbsfree energy of hydration. 硝酸溶液腐蚀行为钛合金冷凝水浓度增加浸泡试验老化行为均匀腐蚀

分类号 TG142.71 [金属学及工艺—金属材料] TL212.32 [核科学技术—核燃料循环与材料]

引文网络
相关文献

参考文献15

1T. Furuya, J. Kawafuku, H. Sato, K. Shimogori, A. Aoshima, S. Takeda, Corrosion testing method for titanium in nitric acid environments, ISIJ International 31(2)(1991) 189-193.
2A.R. Shankar, R.K. Dayal, R. Balasubramaniam, V.R. Raju, R. Mythili, S. Saroja, et al., Effect of heat treatment on the corrosion behaviour of Ti-5Ta-1.8Nb alloy in boiling concentrated nitric acid, J. Nucl. Sci. 372 (2008) 277-284.
3A.R. Shankar, V.R. Raju, M.N. Rao, U.K. Mudari, H.S. Khatak, B. Raj, Corrosion of zircaloy-4 and its welds in nitric acid medium, Corro. Sci. 49 (2007) 3527-3538.
4T. Furuya, J. Kawafuku, H. Sato, K. Shimogori, A. Aoshima, S. Takeda, Corrosion resistance of zirconium and titanium alloy in nitric acid solutions, in: Proceedings of ANS Topical Meeting on Fuel Reprocessing and Waste Management, 1984, pp. 249-258.
5T. Fujii, H. Baba, The effect of oxidizing ions on the passivity of the valve metals in boiling nitric acid solutions, Corro. Sci. 31 (1990) 275-280.
6A. Takamura, K. Arakawa, Y. Moriguchi, Corrosion Resistance of Titanium and Titanium-5% Tantalum Alloy in Hot Concentrated Nitric Acid, The Science Technology and Application of Titanium, Pergamon Press, Oxford, UK, 1970, pp. 209-216.
7H. Sato, F. Kamikubo, K. Shimogori, T. Fukuzuka, Effect of oxidizing agents on corrosion resistance of commercially pure titanium in nitric acid solution, Boshoku Gijutu 31 (1982) 769-775. (in Japanese).
8K. Kapoor, V. Kain, T. Gopalkrishna, T. Sanyal, P.K. De, High corrosion resistant Ti-5%Ta-1.8Nb alloy for fuel reprocessing application, J. Nucl. Mater. 322 (2003) 36-44.
9U.K. Mudali, R.K. Dayal, J.B. Gnanamoorthy, Corrosion studies on materials of construction for spent nuclear fuel reprocessing plant equipment, J. Nucl. Mater 203 (1993) 73-82.
10A. Maki, Corrosion circumstance in the Tokai reprocessing plant and evaluation of the corrosion rate, JNC Technical Review 14 (2002) 39-63. (in Japanese).

同被引文献8

1罗文宗.高放废液贮槽的设计、建造和检验[J].原子能科学技术,1993,27(5):468-474. 被引量：1
2顾忠茂,王乃彦.我国核裂变能可持续发展战略研究[J].中国能源,2005,27(11):5-10. 被引量：6
3王建晨,曹轩.模拟高放废液的甲酸脱硝[J].核科学与工程,1997,17(1):88-93. 被引量：8
4许明霞.乏燃料后处理厂“红油”爆炸安全分析[J].核安全,2011,10(1):22-27. 被引量：2
5顾忠茂,柴之芳.关于我国核燃料后处理/再循环的一些思考(英文)[J].化学进展,2011,23(7):1263-1271. 被引量：31
6李金英,石磊,胡彦涛.我国乏燃料后处理大厂建设的几点思考[J].核化学与放射化学,2011,33(4):204-210. 被引量：21
7宋凤丽,赵善桂,刘新华,张春龙,吕丹,刘运陶,杨晓伟,汪世军.乏燃料后处理厂主工艺中的主要化学安全问题[J].核安全,2014,13(2):23-30. 被引量：3
8杨辉.甲酸脱硝原理的简述[J].化学工程与装备,2014(9):180-180. 被引量：1

引证文献1

1宋凤丽,吕丹,阙骥,刘志辉,赵善桂,汪世军,刘运陶,刘新华,吴浩,段红卫.乏燃料后处理厂高放废液和废有机溶剂处理系统典型安全问题分析[J].核科学与工程,2015,35(2):320-327. 被引量：4

二级引证文献4

1李扬.冷坩埚处理高放废液系统的进料设计[J].科技创新导报,2015,12(33):127-128.
2陆浩然,汪长安.高放废物晶格固化用LaMgAl(11)O(19)材料的制备及其稳定性[J].核科学与工程,2017,37(6):992-999. 被引量：1
3金潮,张菁,游国强,赵怀璞,杜旭红,张恬.基于FDS的后处理厂有机溶剂火灾事故后果研究[J].消防科学与技术,2019,38(3):450-452. 被引量：1
4杜云武,邓晓钦,曾奕,王亮,罗茂丹,毛万冲,唐远程,李雪泓.水中总α放射性测量的超铀α核素探测效率研究[J].核电子学与探测技术,2023,43(3):656-664.

1H.Keshmiri,A.Momeni,K.Dehghani,G.R.Ebrahimi,G.Heidari.Effect of Aging Time and Temperature on Mechanical Properties and Microstructural Evolution of 2205 Ferritic-Austenitic Stainless Steel[J].Journal of Materials Science & Technology,2009,25(5):597-602. 被引量：4
2李云涛,刘志义,周杰,夏卿坤.Microstructure and mechanical properties of Al-Cu-Mg-Ag alloyed with Ce[J].中国有色金属学会会刊：英文版,2007,17(A01):266-270. 被引量：2
3业成,陆晓峰,廖明刚.碳钢在冷凝水中的腐蚀电化学行为[J].材料保护,2013,46(8):33-35. 被引量：1
4何立子.Effects of Thermomechanical Treatment on the Mechanical Properties and Microstructures of 6013 Alloy[J].Journal of Wuhan University of Technology(Materials Science),2009,24(2):198-201. 被引量：5
5高岩磊,崔文广,熊金平.环氧胶接接头在酸介质中的老化行为研究[J].化工新型材料,2008,36(6):85-86. 被引量：1
6Yang-Do Kim,Nam-Hyun Kang,Il-Guk Jo,Kyung-Hyun Kim,In-Bae Kim.Aging Behavior of Mg-Y-Zr and Mg-Nd-Zr Cast Alloys[J].Journal of Materials Science & Technology,2008,24(1):80-84. 被引量：1
7晏井利,梅建平,王仕勤,黄金督.T91钢高温应力时效过程中组织与性能的演化[J].材料热处理学报,2016,37(5):96-102. 被引量：6
8Byoungho Kim,Jongjin Jeon,Yeongdo Park,Yongho Park,Ikmin Park.Ageing Behavior of Mg-xAl-Zn with Variation of Al Content[J].Journal of Materials Science & Technology,2008,24(1):51-53.
9郭威威,要玉宏,王正品.T91钢焊接接头的服役退化行为评估[J].西安工业大学学报,2013,33(8):669-674. 被引量：2
10LI Ju-cang,WANG Shu-ying,ZHAO Ai-min,WANG Li-na,LIU Feng-he.Corrosion properties of high silicon iron-based alloys in nitric acid[J].China Foundry,2007,4(4):276-279. 被引量：1

Journal of Energy and Power Engineering

2013年第6期

浏览历史

内容加载中请稍等...

Corrosion Behavior of a Titanium Alloy in Hot Nitric Acid Condensate 被引量：1

参考文献15

同被引文献8

引证文献1

二级引证文献4

相关作者

相关机构

相关主题

浏览历史