OALib Journal期刊
ISSN: 2333-9721
费用：99美元

投递稿件

查看量	下载量

相关文章
更多...

材料工程 2014

水蒸气温度和流量对T91钢氧化行为的影响

DOI: 10.3969/j.issn.1001-4381.2014.01.010, PP. 52-57

耿波,张路,范念青,夏志新,刘江南

Keywords: 耐热钢,水蒸气,氧化行为,显微组织

Full-Text Cite this paper Add to My Lib

Abstract:

研究了高温水蒸气的温度和流量对T91钢氧化行为的影响，阐述了氧化层的组织结构与氧化动力学之间的关系。结果表明水蒸气氧化过程分为线性的初始快速氧化阶段和之后的抛物线慢速氧化阶段及线性的慢速氧化阶段。当水蒸气温度较高、流量较小时出现慢速氧化阶段。初始快速氧化阶段的氧化速率随水蒸气温度的升高而增大，但水蒸气流量对初始快速氧化阶段的氧化速率影响很小。初始快速氧化阶段单位面积增重最大值随水蒸气流量的增大而线性增大，且随温度升高而增速加快。随着水蒸气温度和流量的增加，T91钢最外层氧化层的形态发生明显改变，导致抗高温氧化性能显著下降。

References

[1]	MASUYAMA F. History of power plants and progress in heat resistant steels[J]. ISIJ International, 2001, 41(6): 612-625.
[2]	赵彦芬, 张路, 王正品, 等. 高温过热器T91、T22管爆管分析[J]. 热力发电, 2004, 11(1): 61-65.ZHAO Yan-fen, ZHANG Lu, WANG Zheng-pin, et al. Analysis of tube-burst for T91 and T22 superheater tubes[J]. Thermal Power Generation, 2004, 11(1): 61-65.
[3]	钟万里, 盘荣旋. 超临界锅炉高温过热器T91钢管爆管分析[J]. 理化检验-物理分册, 2009, 45(7): 440-445.ZHONG Wan-li, PAN Rong-xuan. Analysis of T91 steel pipe bursting at high temperature superheater in supercritical boiler[J]. Physical Testing and Chemical Analysis(Part A:Physical Testing), 2009, 45(7): 440-445.
[4]	李铁藩. 金属高温氧化和热腐蚀[M]. 北京: 化学工业出版社, 2003.
[5]	WANG L M, WANG Z B, LU K. Grain size effects on the austenitization process in a nanostructured ferritic steel[J]. Acta Materialia, 2011, 59(9): 3710-3719.
[6]	李辛庚, 王学刚, 何家文. 喷丸与电泳沉积稀土薄膜复合处理提高T91钢抗水蒸气氧化性能的研究[J]. 中国腐蚀与防护学报, 2002, 22(2): 101-104.LI Xin-geng, WANG Xue-gang, HE Jia-wen. The property of water vapor oxidation resistance of T91 steel treated by shot blasted and electrophoresis deposited RE coating[J]. Journal of Chinese Society for Corrosion and Protection, 2002, 22(2): 101-104.
[7]	李辛庚, 何家文. 喷丸处理提高TP304H耐热钢锅炉管抗水蒸气氧化性能应用效果的观察[J].中国腐蚀与防护学报, 2003, 23(3): 171-174.LI Xin-geng, HE Jia-wen. Observation of the effect of shot blasted on steam oxidation resistance of TP304H steel boiler tubing[J]. Journal of Chinese Society for Corrosion and Protection, 2003, 23(3): 171-174.
[8]	王群, 丁彰雄, 詹旺滨. 三种用于锅炉管道涂层材料抗高温氧化性能的研究[J]. 湖南冶金, 2003, 31(1): 12-15.WANG Qun, DING Zhang-xiong, ZHAN Wang-bin. Study on performance of resistance to high temperature oxidation of three kinds of coating material for boiler tubes[J]. Hunan Metallurgy, 2003, 31(1): 12-15.
[9]	耿波, 刘江南, 赵彦芬, 等. T91钢高温水蒸汽氧化层形成机理研究[J]. 铸造技术, 2004, 25(12): 914-918.GENG Bo, LIU Jiang-nan, ZHAO Yan-fen, et al. Mechanism of the formation of the oxidation layers of T91 steel tube under the high temperature water vapour[J]. Foundry Technology, 2004, 25(12): 914-918.
[10]	王正品, 张路, 刘江南, 等. 电站用T22与T91管高温蒸汽氧化的失效分析[J]. 铸造技术, 2004, 25(7): 523-525.WANG Zheng-pin, ZHANG Lu, LIU Jiang-nan, et al. Failure analysis of high temperature steam oxidation of T22 and T91 tubes for power station[J]. Foundry Technology, 2004, 25(7): 523-525.
[11]	EBERLE F, ANDERSON C H. Scaling behavior of superheater tube alloys in ASME high-temperature steam research tests at 1100-1500F[J]. Trans ASME, 1962, 84(4): 223-257.
[12]	刘江南, 赵彦芬, 耿波, 等. T91钢高温高压水蒸汽氧化膜微观组织结构研究[J]. 铸造技术, 2005, 26(3): 202-204.LIU Jiang-nan, ZHAO Yan-fen, GENG Bo, et al. Research on the microstructure of the oxidation film of T91 steel tube under the high temperature and high pressure water vapor[J]. Foundry Technology, 2005, 26(3): 202-204.
[13]	DOOLEY R B, PATERSON S J. Oxide Growth and Exfoliation in Steam: Plant Experience. Teddington: National Physical Laboratory, 2003.

Full-Text

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133