Home / Faculty / Faculty
cms.getChannel(7aa103a43fa24b9d9bacd254ec7d62fa).title

Faculty

Name : Zhiyong Liu

Department : Engineering Research Institute of Corrosion Control System

Title :Professor

Address :Institute for advanced materials and technology, university of science and technology of Beijing, 30 xueyuan road, haidian district, Beijing

Zip code :100083

Office Location : Room 516 of Corrosion Building, Beijing University of Science and Technology

Office Telephone : 010-62333931-516

Mailbox : Liuzhiyong7804@ustb.edu.cn

Personal profile:

Liu Zhiyong, born in 1978, professor, master supervisor, postdoctoral fellow at the University of Calgary, Canada, visiting scholar at the Massachusetts Institute of Technology, and recipient of the Beijing Young Talents Program. Long-term commitment to the theory and application of material stress corrosion frontier, undertake or participate in more than 30 science and technology support projects and school-enterprise cooperation projects such as the national natural science foundation, natural fund key projects, "973", "863", "13th Five-Year National Key R&D Plan", "National Science and Technology Condition Platform". Published more than 240 academic papers in professional journals such as "Nature", "Corr. Sci.", "Electroch. Communi.", "Electrochim. Acta", "MSEA", etc., including more than 40 Top papers, more than 140 SCI/EI articles. Cooperating with 5 monographs, 13 national patents were approved, and 3 national standards were participated. In 2015, he won the first China Outstanding Youth Award for Corrosion and Protection (Zuojing Yi Award), and won 4 provincial and ministerial level awards and 6 first prizes of China Society for Corrosion and Protection.

Research direction:

1. Stress corrosion behavior and mechanism of materials

2. Development of new steel resistant to environmental cracking

Local corrosion electrochemical monitoring and detection technology

Scientific research achievement :

Selected papers

[1]Wenkui Hao, Zhiyong Liu*, Wei Wu, Xiaogang Li, Cuiwei Du, Dawei Zhang. Electrochemical characterization and stress corrosion cracking of E690 high strength steel in wet-dry cyclic marine environments. Materials Science & Engineering A 710(2018):318-328.

[2]Zhao Tianliang,Liu Zhiyong*,Du Cuiwei*,Sun Meihui,Li Xiaogang.Effects of cathodic polarization on corrosion fatigue life of E690 steel in simulated seawater. International Journal of Fatigue, 2018, 110: 105-114.

[3]Q Hou, Z Y Liu*, C T Li, X G Li.The mechanism of stress corrosion cracking of Alloy 690TT in a caustic solution containing lead.Corrosion Science 128(2017), 154-163.(唯一通讯) WOS:000414885500015ISSN: 0010-938X eISSN: 1879-0496

[4]Hou Q, Liu Z Y*, Li CT, Li, XG. Effects of lead on oxidation behavior of Alloy 690TT within a high temperature aqueous environment. APPLIED SURFACE SCIENCE, 2017, 426 : 514-526.

WOS:000413658200056ISSN: 0169-4332, eISSN: 1873-5584

[5]Wu W,Liu ZY, Hu SS, Li XG, Du CW. Effect of pH and hydrogen on the stress corrosion cracking behavior of duplex stainless steel in marine atmosphere environment. OCEAN ENGINEERING. 2017, 146: 311-323.

[6]C Liu, RI Revilla, Z Y Liu*, D W Zhang*, X G Li*, H Terryn*.Effect of inclusions modified by rare earth elements (Ce, La) on localized marine corrosion in Q460NH weathering steel. Corrosion Science(2017) 129, 82-90.

[7]Wan HX, Song DD,Liu ZY, Du CW, Zeng ZP, Wang ZG, Ding D,Li XG. Effect of negative half-wave alternating current on stress corrosion cracking behavior and mechanism of X80 pipeline steel in near-neutral solution.CONSTRUCTION AND BUILDING MATERIALS, 2017,154: 580-589 .

[8] Z. Y Liu, Q.Li, Z. Y.Cui, W Wu, Z Li, C.W. Du, X.G. Li, Field experiment of stress corrosion cracking behavior of high strength pipeline steels in typical soil environments.Construction and Building Materials, 148(2017): 131-139.

[9]F L Sun, S Ren, Z Li, Z Y Liu, X G Li, C W Du.Comparative study on the stress corrosion cracking of X70 pipeline steel in simulated shallow and deep sea environments.Materials Science and Engineering: A685 (2017):145-153.

[10]LF Zhou, ZY Liu, W Wu, XG Li, CW Du, B Jiang.Stress corrosion cracking behavior of ZK60 magnesium alloy under different conditions. International Journal of Hydrogen Energy, 42(2017):26162-26174.

[11]Liu, Q,Li Z, Liu ZY,Li XG, Wang SQ. Effects of H2S/HS- on Stress Corrosion Cracking Behavior of X100 Pipeline Steel Under Simulated Sulfate-Reducing Bacteria Metabolite Conditions.JOURNAL OF MATERIALS ENGINEERING AND PERFORMANCE, 2017, 26( 6 ): 2763-2775.

[12] Cui ZY; Liu ZY; Wang LW; Li XG; Du CW; Wang X. Effect of plastic deformation on the electrochemical and stress corrosion cracking behavior of X70 steel in near-neutral pH environment. MATERIALS SCIENCE AND ENGINEERING A,2016, 677: 259-273.

[13]Wang, LT; Xing, YY; Liu, ZY; Zhang, DW; Du, CW; Li, XG. Erosion-corrosion behavior of 2205 duplex stainless steel in wet gas environments. JOURNAL OF NATURAL GAS SCIENCE AND ENGINEERING, 2016, 35: 928-934.

[14]Zhao, TL; Liu, ZY; Du, CW; Hu, JP; Li, XG. A Modelling Study for Predicting Life of Downhole Tubes Considering Service Environmental Parameters and Stress. MATERIALS, 2016, 9: No.741

[15]Z.Y. Liu, H. Li, Z.J. Jia, C.W. Du, X.G. Li*. Failure analysis of P110 steel tubing in low-temperature annular environment of CO2 flooding wells. Engineering Failure Analysis 60 (2016) 296–306

[16]Z.Y. Liu, W. Wu, W.K. Hao, X.G. Li*, C.W. Du, and K. Xiao. Stress Corrosion Cracking Mechanism of 304L under a Glycine Environment. Corrosion, 72(2016):332-341

[17]Z.Y.Liu*, X.Z.Wang, C.W.Du, J.K.Li, X.G.Li *. Effect of hydrogen-induced plasticity on the stress corrosion cracking of X70 pipeline steel in simulated soil environments. Materials Science & Engineering A 658(2016)348–354.

[18]Cui, Zhongyu; Liu, Zhiyong*; Wang, Liwei; .Effect of pH Value on the Crack Growth Behavior of X70 Pipeline Steel in the Dilute Bicarbonate Solutions. MATERIALS TRANSACTIONS,56(2015):777-780

[19]Liu Z.Y., Cui Z.Y., Li X.G. *, Du C.W., Xing Y.Y.. Mechanistic aspect of stress corrosion cracking of X80 pipeline steel under non-stable cathodic polarization. Electrochemistry Communications. 48 (2014) 127–129

[20]Liu Z.Y., Lu L., Huang Y.Z., Du C.W., Li X.G.*. Mechanistic Aspect of Non-steady Electrochemical Characteristic during Stress Corrosion Cracking of an X70 Pipeline Steel in Simulated Underground Water, Corrosion70 (2014) 678-685.


Published monographs:
1. "Introduction to Material Corrosion and Protection", Mechanical Industry Press, 2017

2. "Evaluation Methods for Corrosion Experiments of Typical Materials in Oil and Gas Fields", Science Press, 2016

3. "Corrosion Behavior and Mechanism of Marine Engineering Materials", Chemical Industry Press, 2016

4. "Standard Stress Corrosion Cases and Cracking Mechanism in the Petroleum Industry Environment", Science Press, 2014