| 简历: |
教育经历: 1989.9 - 1993.6:哈尔滨船舶工程学院金属材料及热处理专业本科生,获学士学位; 1993.9 - 1996.2:哈尔滨工程大学机械学专业硕士生,获硕士学位; 1996.3 - 1999.6:中国科学院金属研究所材料学专业博士生,获博士学位。 工作经历: 1999.6 - 2001.1:中国科学院金属腐蚀与防护研究所环境腐蚀中心,博士后,助研; 2001.2 - 2002.2:韩国科学技术院(KAIST)核工程系核材料实验室,博士后; 2002.3 - 2005.3:日本国立材料科学研究所(NIMS)钢铁研究中心,特别研究员; 2005.4 - 2008.8:中国科学院金属研究所材料环境腐蚀研究中心,副研究员; 2005.7:中国科学院金属研究所“引进优秀学者”。 2008.9 - 现在:中国科学院金属研究所材料环境腐蚀研究中心,研究员; 2011.4 - 现在:中国科学院金属研究所材料环境腐蚀研究中心,博士生导师。 |
| 研究领域: |
主要从事材料高温高压水腐蚀损伤行为、机理与评价技术研究,包括360oC/20 MPa以下的轻水堆核电站服役水环境和374oC/22.1 MPa以上的超临水环境。主要以能源和环境安全为背景,研究现役二代压水堆和三代大型先进压水堆核电站及第四代超临界水冷堆关键设备材料的服役安全、国产化设计、运行水化学、在线监检测原理与方法及寿命评价技术;同时涉及超超临界火电机组关键材料的服役损伤评价、工业有机毒害废物超临界水氧化处理新技术的开发及关键设备的选材、超临界煤气化技术关键设备的选材、超临界水热合成原理与工艺研究,以及新型耐蚀材料研发及腐蚀性能评价等工作。 • 核电高温高压水和超临界水模拟设备与实验技术 • 高温高压水腐蚀电化学及在线监检测技术 • 核电运行水化学影响腐蚀损伤的机理与参数优化 • 核电材料高温高压水腐蚀疲劳及寿命设计模型 • 超临界水腐蚀损伤及水热合成 • 高温高压液相环境腐蚀失效分析与对策 • 新型耐蚀材料研发及腐蚀性能评价 |
(1) 吴欣强*,谭季波,徐松,韩恩厚,柯伟,核级低合金钢高温水腐蚀疲劳机制及环境疲劳设计模型,金属学报,51(3), 2015, 298-306.
(2) X. Y. Zhong, X. Q. Wu*, E. H. Han, Effects of exposure temperature and time on corrosion behavior of a ferritic-martensitic steel P92 in aerated supercritical water, Corrosion Science, 90, 2015, 511-521.
(3) X. Q. Wu*, X. H. Liu, E. H. Han, W. Ke, Effects of zinc injection on electrochemical corrosion and cracking behaviors of stainless steels in borated and lithiated high temperature water, Proceedings of the International Conference on Water Chemistry of Nuclear Reactor Systems, NPC2014, October 26-31, 2014, Sapporo, Japan, Paper No.10021.
(4) J. B. Tan, X. Q. Wu*, E. H. Han, We Ke, X. Q. Liu, F. J. Meng, X. L. Xu, Corrosion fatigue behavior of Alloy 690 steam generator tube in borated and lithiated high temperature water, Corrosion Science, 89, 2014, 203-213.
(5) J. B. Tan, X. Q. Wu*, E.-H. Han, We Ke, X. Q. Liu, F. J. Meng, X. L. Xu, Role of TiN inclusion on corrosion fatigue behavior of Alloy 690 steam generator tubes in borated and lithiated high temperature water, Corrosion Science, 88, 2014, 349-359.
(6) X. Liu, E. H. Han*, X. Q. Wu, Effects of pH value on characteristics of oxide films on 316L stainless steel in Zn-injected borated and lithiated high temperature water, Corrosion Science, 78, 2014, 200-207.
(7) X. Q. Wu*, J. Xu, W. Ke, S. Xu, B. Feng, B. T. Hu, Effects of pH value on corrosion behavior of thermal sprayed Al-Si coated Q235 steel in simulated soil solutions, Journal of Materials Engineering and Performance, 23, 2014, 2265-2273.
(8) 刘侠和,吴欣强*,韩恩厚,温度对国产核级316L不锈钢在加Zn水中电化学腐蚀性能的影响,金属学报,50(1), 2014, 64-70.
(9) X. Q. Wu*, E. H. Han, Y. M. Xu, Nuclear power development and major research projects in China, Symposium on Water Chemistry and Corrosion in Nuclear Power Plants in Asia, 2013, October 14-17, 2013, Taichung, Taiwan. (Plenary Talk)
(10) X. Liu, X. Q. Wu*, E. H. Han, Electrochemical and surface analytical investigation of the effects of Zn concentrations on characteristics of oxide films on 304 stainless steel in borated and lithiated high temperature water, Electrochimica Acta, 108, 2013, 554-565.
(11) J. Xu, X. Q. Wu*, E.-H. Han, Acoustic emission response of sensitized 304 stainless steel during intergranular corrosion and stress corrosion cracking, Corrosion Science, 73, 2013, 262-273.
(12) W. Kuang, X. Q. Wu*, E. H. Han, Influence of dissolved oxygen concentration on the oxide film formed on Alloy 690 in high temperature water, Corrosion Science, 2013, 69, 2013, 197-204.
(13) X. Y. Zhong, E. H. Han*, X. Q. Wu*, Corrosion behavior of Alloy 690 in aerated supercritical water, Corrosion Science, 66(1), 2013, 369-379.
(14) X. Q. Wu*, X. Liu, E. H. Han, W. Ke, Influence of Zn injection on corrosion behavior and oxide film characteristics of 304 stainless steel in borated and lithiated high temperature water, Proceedings of the International Conference on Water Chemistry of Nuclear Reactor Systems, September 23-28, 2012, Paris, France, Paper No. 28-O27.
(15) J. Xu, X. Q. Wu*, E. H. Han, The evolution of electrochemical behaviour and oxide film properties of 304 stainless steel in high temperature aqueous environment, Electrochimica Acta, 71(6), 2012, 219-226.
(16) X. Liu, X. Q. Wu*, E. H. Han, Effect of Zn injection on established surface oxide films on 316L stainless steel in borated and lithiated high temperature water, Corrosion Science, 65(12), 2012, 136-144.
(17) W. Kuang, X. Q. Wu*, E. H. Han, Influence of dissolved oxygen concentration on the oxide film formed on 304 stainless steel in high temperature water, Corrosion Science, 63(10), 2012, 259-266.
(18) J. Xu, E. H. Han*, X. Q. Wu*, Acoustic emission response of 304 stainless steel during constant load test in high temperature aqueous environment, Corrosion Science, 63(10), 2012, 91-99.
(19) H. Sun, X. Q. Wu*, E. H. Han, Y. Z. Wei, Effects of pH and dissolved oxygen on electrochemical behavior and oxide films of 304SS in borated and lithiated high temperature water, Corrosion Science, 59(6), 2012, 334-342.
(20) 吴欣强*,徐松,韩恩厚,柯伟,核级不锈钢高温水腐蚀疲劳机制及环境疲劳设计模型,金属学报,47(7), 2011, 790-796.
(21) 匡文军,吴欣强*,韩恩厚,闭塞区中镍离子对核级304不锈钢高温水氧化行为的影响,金属学报,47(7), 2011, 927-931.
(22) 钟祥玉,吴欣强*,韩恩厚,核级不锈钢和铁素体-马氏体耐热钢在400oC/25 MPa超临界水中的腐蚀行为,金属学报,47(7), 2011, 932-938.
(23) W. Kuang, X. Q. Wu*, E. H. Han, J. C. Rao, The mechanism of oxide film formation on Alloy 690 in oxygenated high temperature water, Corrosion Science, 53(11), 2011, 3853-3860.
(24) X. Liu, X. Q. Wu*, E. H. Han, Influence of Zn injection on characteristics of oxide film on 304 stainless steel in borated and lithiated high temperature water, Corrosion Science, 53(10), 2011, 3337-3345.
(25) J. Huang, X. Liu, E. H. Han*, X. Q. Wu*, Influence of Zn on oxide films on Alloy 690 in borated and lithiated high temperature water, Corrosion Science, 53(10), 2011, 3254-3261.
(26) W. Kuang, X. Q. Wu*, E. H. Han, Effect of alternately changing the dissolved Ni ion concentration on the oxidation of 304 stainless steel in oxygenated high temperature water, Corrosion Science, 53(8), 2011, 2582-2591.
(27) J. Xu, X. Q. Wu*, E. H. Han, Acoustic emission during pitting corrosion of 304 stainless steel, Corrosion Science, 53(4), 2011, 1537-1546.
(28) W. Kuang, X. Q. Wu*, E. H. Han, L. Ruan, Effect of nickel ion from autoclave material on oxidation behavior of 304 stainless steel in oxygenated high temperature water, Corrosion Science, 53(3), 2011, 1107-1114.
(29) J. Xu, X. Q. Wu*, E. H. Han, The acoustic emission during electrochemical corrosion of 304 stainless steel in H2SO4 solutions, Corrosion Science, 53(1), 2011, 448-457.
(30) X. Q. Wu*, J. B. Huang, E. H. Han, W. Ke, Electrochemical corrosion behavior of alloy 690 in simulated sg crevice solutions in pwr secondary circuit, Proceedings of the International Conference on Water Chemistry of Nuclear Reactor Systems, October 3-7, 2010, Quebec, Canada, Paper 5.10P, pp. 1-11.
(31) W. Kuang, X. Q. Wu*, E. H. Han, The oxidation behavior of 304 stainless steel in oxygenated high temperature water, Corrosion Science, 52(12), 2010, 4081-4087.
(32) W. Kuang, E. H. Han*, X. Q. Wu, J. C. Rao, Microstructural characteristics of the oxide scale formed on 304 stainless steel in oxygenated high temperature water, Corrosion Science, 52(11), 2010, 3654-3660.
(33) W. Kuang, E. H. Han*, X. Q. Wu, J. C. Rao, Microstructural characteristics of the oxide scale formed on 304 stainless steel in oxygenated high temperature water, Corros. Sci., 52(11), 2010, 3654-3660.
(34) J. Huang, X. Q. Wu*, E. H. Han, Electrochemical properties and growth mechanism of passive films on Alloy 690 in high-temperature alkaline environments, Corrosion Science, 52(10), 2010, 3444-3452.
(35) M. C. Sun, X. Q. Wu*, E. H. Han, J. C. Rao, Microstructural characteristics of oxide scales grown on stainless steel exposed to supercritical water, Scripta Materialia, 61(10), 2009, 996-999.
(36) J. Huang, X. Q. Wu*, E. H. Han, Influence of pH on electrochemical properties of passive films formed on Alloy 690 in high temperature aqueous environments, Corrosion Science, 51(12), 2009, 2840-2847.
(37) H. Sun, X. Q. Wu*, E. H. Han, Effects of temperature on the oxide film properties of 304 stainless steel in high temperature lithium borate buffer solution, Corrosion Science, 51(12), 2009, 2976-2982.
(38) H. Sun, X. Q. Wu*, E. H. Han, Effects of temperature on the protective property, structure and composition of the oxide film on Alloy 625, Corrosion Science, 51(11), 2009, 2565-2572.
(39) M. C. Sun, X. Q. Wu*, Z. E. Zhang, E. H. Han, Oxidation of 316 stainless steel in supercritical water, Corrosion Science, 51(5), 2009, 1069-1072.
(40) Y. Fu, X. Q. Wu*, E. H. Han, W. Ke, K. Yang, Z. H. Jiang, Effects of nitrogen on the passivation of high nitrogen stainless steels in acidic chloride solutions, Electrochimica Acta, 54(16), 2009, 4005-4014.
(41) Y. Fu, X. Q. Wu*, E. H. Han, W. Ke, K. Yang, Z. H. Jiang, Effects of cold work, sensitization treatment on the corrosion resistance of high nitrogen stainless steel in chloride solutions, Electrochimica Acta, 54(5), 2009, 1618-1629.
(42) X. Q. Wu*, E. H. Han, Y. Katada, Investigation on environmental and mechanical factors on environmental assisted cracking of low-alloy pressure vessel steels in high temperature water, Proceedings of the International Conference on Water Chemistry of Nuclear Reactor Systems, September 15-18, 2008, Maritim Hotel Berlin, Berlin, Germany, P2-51, 1-8.
(43) Y. Fu, X. Q. Wu*, E. H. Han, W. Ke, K. Yang, Z. H. Jiang, Influence of cold work on pitting corrosion behavior of a high nitrogen stainless steel, Journal of the Electrochemical Society, 155(8), 2008, C455-C463.
(44) M. C. Sun, X. Q. Wu*, Z. E. Zhang, E. H. Han, Analyses of oxide films grown on Alloy 625 in oxidizing supercritical water, The Journal of Supercritical Fluids, 47(2), 2008, 309-317.
(45) S. Xu, X. Q. Wu*, E. H. Han, W. Ke, Y. Katada, Crack initiation mechanisms for low cycle fatigue of type 316Ti stainless steel in high temperature water, Materials Science and Engineering A, A49(1-2), 2008, 16-25.
