(1) C. C. Xue, Z. Y. Zhang*, J. B. Tan, X. Q. Wu, E.-H. Han, W. Ke, Effects of Zn injection on corrosion behavior and crud deposition of FeCrAl fuel cladding under subcooled nuclear boiling condition in high-temperature pressurized water, Corrosion Science, 211, 2023, 110909.
(2) Y. J. Ma, Z. Y. Zhang*, J. B. Tan, X. Q. Wu, X. Wang, E.-H. Han, W. Ke, Effect of surface roughness on low-cycle fatigue behaviors of 316LN stainless steel in borated and lithiated high-temperature pressurized water, Corrosion Science, 209, 2022, 110792.
(3) Z. G. Zhu, J. B. Tan*, X. Q. Wu, Z. Y. Zhang, E.-H. Han, X. Wang, Corrosion behaviors of FeCrAl alloys exposed to oxygen-saturated static lead bismuth eutectic at 550 oC, Corrosion Science, 209, 2022, 110767.
(4) L. Y. Peng, Z. Y. Zhang, J. B. Tan, X. Q. Wu*, E.-H. Han, W. Ke, Effects of boric acid and lithium hydroxide on the corrosion behaviors of 316LN stainless steel in simulating hot functional test high-temperature pressurized water, Corrosion Science, 198, 2022, 110157.
(5) Z. G. Zhu, Q. Zhang, J. B. Tan*, X. Q. Wu, H. B. Ma, Z. Y. Zhang, Q. S. Ren, E.-H. Han, X. Wang, Corrosion behavior of T91 steel in liquid lead-bismuth eutectic at 550oC: Effects of exposure time and dissolved oxygen concentration, Corrosion Science, 204, 2022, 110405.
(6) Y. J. Ma, Z. Y. Zhang*, X. Zhang, H. Yin, B. Liang, J. B. Tan, X. Q. Wu, E.-H. Han, W. Ke, Effects of strain rate on low-cycle fatigue crack growth behavior of 316LN weld metal in high-temperature pressurized water, Corrosion Science, 199, 2022, 110169.
(7) F. Q. Ning, J. B. Tan, Z. Y. Zhang, X. Wang, X. Q. Wu*, E.-H. Han, W. Ke, Nodular corrosion inside the crevice of Alloy 690 in deaerated high-temperature chloride solution, Corrosion Science, 185, 2021, 109442.
(8) J. Gao, J. B. Tan, Z. Y. Zhang, M. Jiao, X. Q. Wu*, L. C. Tang, Y. F. Huang, Effects of welding columnar grain orientation and strain rate on corrosion fatigue behavior of Alloy 52/52M weld metal in high-temperature water, Corrosion Science, 180, 2021, 109196.
(9) F. Q. Ning, X. Wang, Y. Yang, J. B. Tan*, X. Q. Wu, D. Jia, Z. Y. Zhang, E.-H. Han, Uniform corrosion behavior of FeCrAl alloys in borated and lithiated high temperature water, Journal of Materials Science & Technology, 70, 2021, 136-144.
(10) F. Q. Ning, J. B. Tan, Z. Y. Zhang, X. Q. Wu*, X. Wang, E.-H. Han, W. Ke, Effects of thiosulfate and dissolved oxygen on crevice corrosion of Alloy 690 in high-temperature chloride solution, Journal of Materials Science & Technology, 66, 2021, 163-176.
(11) F. Q. Ning, J. B. Tan, X. Q. Wu*, Effects of 405 stainless steel on crevice corrosion behavior of Alloy 690 in high-temperature pure water, Journal of Materials Science & Technology, 47, 2020, 76-87.
(12) J. Gao, J. B. Tan, M. Jiao, X. Q. Wu*, L. C. Tang, Y. F. Huang, Role of welding residual strain and ductility dip cracking on corrosion fatigue behavior of Alloy 52/52M dissimilar metal weld in borated and lithiated high-temperature water, Journal of Materials Science & Technology, 42, 2020, 163-174.
(13) Z. Zhang, Z. Y. Zhang, J. B. Tan, X. Q. Wu*, Quantitatively related acoustic emission signal with stress corrosion crack growth rate of sensitized 304 stainless steel in high-temperature water, Corrosion Science, 157, 2019, 79-86.
(14) J. Gao, J. B. Tan, X. Q. Wu*, S. Xia, Effect of grain boundary engineering on corrosion fatigue behavior of 316LN stainless steel in borated and lithiated high-temperature water, Corrosion Science, 152, 2019, 190-201.
(15) Z. Zhang, X. Q. Wu*, J. B. Tan, In-situ monitoring of stress corrosion cracking of 304 stainless steel in-high temperature water by analyzing acoustic emission waveform, Corrosion Science, 146, 2019, 90-98.
(16) Z. Y. Zhang, J. B. Tan, X. Q. Wu*, E.-H. Han, W. Ke, J. C. Rao, Effects of temperature on corrosion fatigue behavior of 316LN stainless steel in high temperature pressurized water, Corrosion Science, 146, 2019, 80-89.
(17) Y. Jin, Z. Li, E. Zhou, Y. Lekbach, D. Xu*, S. Jiang*, F. Wang, Sharing riboflavin as an electron shuttle enhances the corrosivity of a mixed consortium of Shewanella oneidensis and Bacillus licheniformis against 316L stainless steel, Electrochimica Acta, 316, 2019, 93-104.
(18) J. P. Liao, J. B. Tan, X. Q. Wu*, L. C. Tang, H. Qian, Y. C. Xie, Effects of normal load on fretting corrosion fatigue of Alloy 690 in 285℃ pure water, Corrosion Science, 141, 2018, 158-167.
(19) J. P. Liao, X. Q. Wu*, J. B. Tan, L. C. Tang, H. Qian, Y. C. Xie, Fretting corrosion fatigue of Alloy 690 in high-temperature pure water, Corrosion Science, 133, 2018, 423-431.
(20) X. Y. Zhong*, X. Q. Wu*, E.-H. Han, Characteristics of oxidation and oxygen penetration of alloy 690 in 600℃ aeratedsupercritical water, Journal of Materials Science & Technology, 34(3), 2018, 561-569.
(21) D. X. Chen, E.-H. Han*, X. Q. Wu, Effects of crevice geometry on corrosion behavior of 304 stainless steel during crevice corrosion in high temperature pure water, Corrosion Science, 111, 2016, 518-530.
(22) J. B. Tan, X. Q. Wu*, E.-H. Han, X. Q. Liu, X. L. Xu, H. T. Sun, The effect of dissolved oxygen on fatigue behavior of Alloy 690 steam generator tubes in borated and lithiated high temperature water, Corrosion Science, 102, 2016, 394-404.
(23) 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.
(24) 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.
(25) 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.
(26) 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.
(27) 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.
(28) 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.
(29) 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, 69, 2013, 197-204.
(30) 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.
(31) 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.
(32) 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.
(33) 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.
(34) 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.
(35) 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.
(36) 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.
(37) 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.
(38) 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.
(39) 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.
(40) J. Xu, X. Q. Wu*, E. H. Han, Acoustic emission during pitting corrosion of 304 stainless steel, Corrosion Science, 53(4), 2011, 1537-1546.
(41) 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.
(42) 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.
(43) 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.
(44) 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.
(45) 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.
(46) 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, 2976-2982.
(47) 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, 2840-2847.
(48) 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.
(49) 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.
(50) 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.
(51) 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.
(52) S. Jiang, Y. Zheng*, Z. Yao, Cavitation erosion behaviour of 20SiMn low alloy steel in Na2SO4 and NaHCO3 solutions, Corrosion Science, 48(9), 2006, 2614-2632.
(53) X. Q. Wu, Y. Katada, Strain Rate Dependence of Low Cycle Fatigue Behavior in A Simulated BWR Environment, Corrosion Science, 47(6), 2005, 1415-1428.
(54) X. Q. Wu, H. M. Jing, Y. G. Zheng, Z. M. Yao, and W. Ke, Resistance of Molybdenum-Bearing Stainless Steels and Molybdenum-Bearing Stainless-Steel Coating to Naphthenic Acid Corrosion and Erosion-Corrosion, Corrosion Science, 46(4), 2004, 1013-1032.
