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Jingli Luo: C.V.
(1) Q. Yang and J.L. Luo, “The Hydrogen-Enhanced Effects of Chloride Ions on the Passivity of Type 304 Stainless Steel”, accepted by Electrochimica Acta on February 20, 2000. (2) Q. Yang and J.L. Luo, “Martensite Transformation and Surface Cracking of Hydrogen Charged and Outgassed Type 304 Stainless Steel”, accepted by Materials Science and Engineering A on Feb 15, 2000. (3) N. Cui, J. L. Luo and K.T. Chuang “Nickel-Metal Hydride (Ni-MH) Battery Using Mg2Ni-type Hydrogen Storage Alloy”, accepted by Journal of Alloys and Compounds on Nov. 1, 1999. (4) Y.F. Cheng, J.L. Luo and M. Wilmott, 2000, “Spectral Analysis of Electrochemical Noise with Different Transient Shapes”, Electrochimica Acta, 45, pp. 1763-1771. (5) N. Cui, P. He and J.L. Luo, 1999, “Magnesium-Based Hydrogen Storage Materials Modified by Mechanical Alloying”, Acta Materialia, 47(14), pp. 3737-3743. (6) M.Z. Yang, J. L. Luo and B.M. Patchett, 1999, “Correlation of Hydrogen-Facilitated Pitting of AISI 304 Stainless Steel to Semiconductivity of Passive Films”, Thin Solid Film, 354, pp. 142-147. (7) Y.F. Cheng, M. Wilmott and J.L. Luo, 1999, “The Role of Chloride Ions in Pitting of Carbon Steel Studied by the Statistical Analysis of Electrochemical Noise”, Applied Surface Science, 152, pp. 161-168. (8) Y.F. Cheng and J.L. Luo, 1999, “Passivity and Pitting of Carbon Steel in Chromate Solutions”, Electrochimica Acta, 44, pp. 4795-4804. (9) J.L. Luo and L.J. Qiao, 1999, “Application and Evaluation of Processing Methods of Electrochemical Noise generated during Stress Corrosion Cracking”, Corrosion, 55 (9), pp. 870-876. (10) M.Z. Yang, J.L. Luo, Q. Yang, L.J. Qiao, Z.Q. Qin and P.R. Norton, 1999, “Effects of Hydrogen on Semiconductivity of Passive Film and Corrosion Behavior of 310 Stainless Steel”, Journal of the Electrochemical Society, 146 (6), pp. 2107-2112. (11) Q. Yang, L.J. Qiao, S. Chiovelli and J.L. Luo, 1999, “Critical Hydrogen Charging Conditions for Martensite Transformation in Type 304 Stainless Steel and Surface Cracking," Scripta Materialia, 40 (11), pp. 1209-1214. (12) N. Cui, P. He and J.L. Luo, 1999, "Synthesis and Characterization of Nanocrystalline Magnesium-Based Hydrogen Storage Alloy Electrode Materials", Electrochimica Acta, 44, pp. 3549-3558. (13) Y.F. Cheng and J.L. Luo, 1999, "Electronic Structure and Pitting Susceptibility of Passive Film on Carbon Steel", Electrochimica Acta, 44, pp. 2947-2957. (14) N. Cui and J.L. Luo, 1999, “Effects of Oxide Additions on Electrochemical Hydriding and Dehydriding Behavior of Mg2Ni?type Hydrogen Storage Alloy Electrode in 6M KOH Solution”, Electrochimica Acta, 44, pp. 711-720. (15) Y.F. Cheng and J.L. Luo, 1999, “Metastable pitting of Carbon Steel under Potentiostatic Control”, Journal of the Electrochemical Society, 146 (3), pp. 970-976. (16) Y.F. Cheng, M. Wilmott and J.L. Luo, 1999, “Analysis of the Role of Electrode Capacitance of A516 Carbon Steel on the Initiation of Pits by Electrochemical Noise Measurements”, Corrosion Science, 41(7), pp. 1245-1256. (17) M. Z. Yang, Q. Yang and J. L. Luo, 1999, “Effects of Hydrogen on Passive Film and Corrosion of AISI 310 Stainless Steel”, Corrosion Science, 41, pp. 741-745. (18) N. Cui and J.L. Luo, 1999, “Electrochemical Study of Hydrogen Diffusion Behavior in Mg2Ni-Type Hydrogen Storage Alloy Electrodes”, International Journal of Hydrogen Energy, 24(1), pp. 37-42. (19) B. Gu, J. Luo and X. Mao, 1999, “Hydrogen-Facilitated Anodic Dissolution-Type Stress Corrosion Cracking of Pipeline Steels in Near-Neutral pH Solution”, Corrosion, 55 (1), pp. 96-106. (20) B. Gu, W.Z. Yu, J.L. Luo and X. Mao, 1999, “Transgranular Stress Corrosion Cracking of X-80 and X-52 Pipeline Steels in Dilute Aqueous Solution with Near-Neutral pH”, Corrosion, 55 (3), pp. 312-318. (21) Y.F. Cheng, M. Wilmott and J.L. Luo, 1999, “Transition Criterion of Metastable Pitting towards Stability for Carbon Steel in Chloride Solutions”, British Corrosion Journal, 34 (4), pp. 280- 284. (22) Y.F. Cheng, B.R. Rairdan and J.L. Luo, 1998, “Features of electrochemical noise generated during pitting of inhibited A516-70 carbon steel in chloride solutions”, Journal of Applied Electrochemistry, 28 (12), pp. 1371-1375. (23) M.Z. Yang, M. Wilmott and J.L. Luo, 1998, “Crevice Corrosion Behavior of A516-70 Carbon Steel in Solutions Containing Inhibitors and Chloride Ions”, Thin Solid Film, 236, pp. 180-188. (24) Q. Yang, L.J. Qiao, S. Chiovelli and J.L. Luo, 1998, “Effects of Hydrogen on the Pitting Susceptibility of 310 Stainless Steel”, Corrosion, 54, pp. 628-633. (25) M.Z. Yang, M. Wilmott and J.L. Luo, 1998, “Analysis of the Electrochemical Noise for Localized Corrosion of A516-70 Carbon Steel”, Corrosion, 54(11), pp. 869-876. (26) D.G. Ivey, J.L. Luo, S. Ingrey, R. Moore and I. Woods, 1998, “Galvanic Corrosion Effects in InP-based laser Ridge Structures”, Journal of Electronic Materials, 27, pp. 89-95. (27) N. Cui and J.L. Luo, 1998, “AC Impedance Studies of the Discharge Process of a Mg2Ni-Type Hydrogen Storage Alloy Electrode in 6M KOH Solution”, Journal of Alloys and Compounds, 265, pp. 305-310. (28) J.L. Luo and N. Cui, 1998, “Effects of Microencapsulation on the Electrode Behavior of Mg2Ni-Based Hydrogen Storage Alloy in Alkaline Solution”, Journal of Alloys and Compounds, 264, pp. 299-305. (29) L.J. Qiao and J.L. Luo, 1998, “Hydrogen-Facilitated Anodic Dissolution of Austenitic Stainless Steels”, Corrosion, 54(4), pp. 281-288. (30) L.J. Qiao, J.L. Luo and X. Mao, 1998, “Hydrogen Evolution and Enrichment around Stress Corrosion Cracking Tips of Pipeline Steels in Dilute Carbonate Solution”, Corrosion, 54 (2), pp. 115-120. (31) C.J. Lin, J.L. Luo, X.D. Zhuo and Z.W. Tian, 1998, “Scanning Microelectrode Studies of Early Pitting Corrosion of 18/8 Stainless Steel”, Corrosion, 54(4), pp. 265-270. (32) J.L. Luo and M.B. Ives, 1997, “Kinetics for Pitting on Nickel and Nickel Molybdenum Alloys”, Journal of The Electrochemical Society, 144 (11), pp. 3907-3913. (33) J.L. Luo, C.J. Lin, Q. Yang and S. W. Guan, 1997, “Cathodic Disbonding of a Thick Polyurethane Coating from Steel in Sodium Chloride Solution”, Progress in Organic Coatings 31, pp. 289-295. |
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