Personal profile：

Professor in Institute of Advanced Materials and Technology, University of Science and Technology Beijing. Got his Ph. D in Materials Science and Engineering from Zhejiang University in 2005 and Academic Visitor in Leeds University in 2015. He is the secretary-general of Environmental Assistant Cracking Committee of Chinese Society for Corrosion and Protection (2007~), member of NACE International, the past faculty adviser of NACE China Student Section (2013-2019), member of NACE Nominate Committee (2017-2019), and the secretary of NACE International EAP Area (2019-2020). He is the member of Sub Committee on Metals and Alloys Corrosion of National Steel Standardization Technical Committee (SAC/TC183/SC11) and member of NACE STAG P70 and P79, member of NACE STG 31 and STG 32. He teaches Metal Corrosion Principle, Anti-corrosion Materials & Corrosion Protection, and Environmental Cracking to graduate and undergraduates in the past fifteen years. He co-authored 5 books and published more than 70 papers indexed by SCI/EI. He received 4 grants from the NSFC and more than 40 projects from industry. His researches focus on H2S corrosion in oil and gas industry, Hydrogen induced cracking and Environmental assistant cracking, Industrial corrosion big data and machine learning.

Research direction：

o       H2S and CO2 corrosion and corrosion product evolution in oil and gas industry

o       Multiphase flow induced corrosion, under deposit corrosion and top of line corrosion for offshore pipeline

o       Pitting and passive film evolution of stainless steels and Nickel based alloys under highly sour environments

o       Stress Corrosion Cracking and Sulfide Stress Cracking of OCTG stainless steels for deep well development

o       Hydrogen Embrittlement and Hydrogen Induced Stress Cracking under over protective cathodic protection

o       Pipeline Integrity Management and Corrosion big data application by machine learning for industry environments

Scientific research achievement:

Publications:

[1] Zhang L, Shen HJ, Lu KD, et al. Investigation of hydrogen concentration and hydrogen damage on API X80 steel surface under cathodic overprotection. International Journal of Hydrogen Energy, 2017, 42: 29888-29896.

[2] Zhang L, Cao WH, Lu KD, et al. Effect of the cathodic current density on the sub-surface concentration of hydrogen in X80 pipeline steels under cathodic protection. International Journal of Hydrogen Energy, 2017, 42: 3389-3398.

[3] Shi FX, Zhang L, Yang, JW, et al. Polymorphous FeS corrosion products of pipeline steel under highly sour conditions. Corrosion Science, 2016, 102: 103-113.

[4] Wang Z, Zhang L, Tang X, et al. The surface characterization and passive behavior of Type 316L stainless steel in H2S-containing conditions. Applied Surface Science, 2017, 423: 457-464.

[5] Ding JH, Zhang L, Lu MX, et al. The electrochemical behavior of 316L austenitic stainless steel in Cl- containing environment under different H2S partial pressures. Applied Surface Science, 2014, 289: 33-41.

[6] Zhang L, Shen HJ, Sun JY, et al. Effect of calcareous deposits on hydrogen permeation in X80 steel under cathodic protection. Materials Chemistry and Physics. 2018, 207: 123-129.

[7] Zhang L, Li HX, Shi FX, et al. Environmental boundary and formation mechanism of different types of H2S corrosion products on pipeline steel. International Journal of Minerals Metallurgy and Materials. 2017, 24: 401-409.

[8] Zhang L, Tang X, Wang Z, et al. The corrosion behaviour of 316L stainless steel in H2S environment at high temperatures. International Journal of Electrochemical, 2017, 12: 8806-8819.

[9] Ding JH, Zhang L, Li DP, et al. Stress Corrosion Cracking Mechanismof UNS S31803 Duplex Stainless Steel under High H2S-CO2 Pressure with High Cl- Content. Journal of Materials Science. 2013, 48(1):3708–3715.

[10] Yue XQ, Zhang L, Li DP, Honda H, et al. Effect of Traces of Dissolved Oxygen on the Passivation Stability of Super 13Cr Stainless Steel Under High CO2/H2S Conditions. International Journal of Electrochemical, 2017, 12: 7853-7868.

[11] Wang Z, Zhang, L, Tang X, et al. Investigation of the deterioration of passive films in H2S-containing solutions. International Journal of Minerals Metallurgy and Materials. 2017, 24: 943-953.

[12] Li DP, Zhang L, Yang JW. Effect of H2S concentration on corrosion behavior of pipeline steel under H2S/CO2 co-exist environment. International Journal of Minerals, Metallurgy and Materials, 2015, 21: 388-394

[13] Wang J, Lu MX, Zhang L, et al. Effect of welding process on microstructure and properties of dissimilar weld joints between low alloy steel and duplex stainless steel. International Journal of Minerals, Metallurgy and Materials, 2012, 19(6): 518-524

[14] Liu Jiabin, Zhang L, Meng L. Microstructure evolution of Cu/Ag interface in the Cu-6wt.%Ag filamentary nanocomposite. Acta Materialia, 2011, 59: 1191-1197.

[15] Yang Jianwei, Zhang Lei, Xu Lining, Lu Minxu. Influence of H₂S and CO₂ corrosion scales on hydrogen permeation in X65 steel. NACE Corrosion/2008, paper no. 08412.

[16] Zhang Lei, Meng Liang. Evolution of microstructure and electrical resistivity of Cu-12wt.%Ag filamentary microcomposite with drawing deformation. Scripta Mater, 2005, 52: 1187.

[17] Zhang Lei, Meng Liang, Liu Jiabin. Effects of Cr addition on the microstructural, mechanical and electrical characteristics of Cu-6 wt.%Ag microcomposite. Scripta Mater, 2005, 52: 587.

[18] Zhang Lei, Meng Liang. Microstructure, mechanical properties and electrical conductivity of Cu-12 wt.% Ag wires annealed at different temperature. Mater Lett, 2004, 58:3888.

[19] Zhang Lei, Meng Liang. Behaviors of the interface and matrix for the Ag/Cu bimetallic laminates prepared by roll bonding and diffusion annealing. Mater Sci Eng A, 2004, 371: 65.

[20] Zhang Lei, Meng Liang. Microstructure and properties of Cu-Ag, Cu-Ag-Cr and Cu-Ag-Cr-RE alloys, Mater Sci Tech, 2003, 19(1): 75.

Patents:

[1] Lei Zhang et al, A testing device of hydrogen permeation under loading，201720425442.X，2018.2

[2] Lei Zhang et al, A portable test machine for localized corrosion depth detection，201310090825.2，2016.5

[3] Lei Zhang et al, A test method and equipment on under deposit corrosion simulation，201410140949.1，2016.8

Awards:
[1] First Prize Of Science And Technology Progress Awarded By China Society Of Corrosion And Protection: Research on CO2-H2S Corrosion Mechanism and Prediction for Subsea Pipeline. 2013.