Curriculum Vitae
Associate professor Zhao Ming，Ph.D
College of Mechanical and Electrical Engineering, North China University of Technology
Beijing City, 100144, China
http://www.ncut.edu.cn/waiban/waiban-English/colleges/coee.html
1. Family Name:
Zhao
2. First Name:
Ming
3. Date of Birth:
June 5, 1972
4. Nationality:
China
5. Address:
Jinyuanzhuang Road No.5,
Shijingshan District, Beijing, 100144, China
6. Phone:
Tel:+8610 88803160(O)
Mobile: +86 13436380493
7. Email: zhaominghust@163.com
8. Education / Professional Studies:
Institution: Guizhou University
Date From/To: 9/1992-7/1996
Degree/Diploma: BE
Institution: Huazhong University of Science and Technology
Date From/To: 9/2001-6/2006
Degree/Diploma: PhD
Institution: Tsinghua University
Date From/To: 7/2006-6/2008
Degree/Diploma: Post-doctoral Research
9. Language Skills: (Mark from 1 (notions) to 5 (excellent) for competence)
Language
Speaking
Reading
Writing
Chinese: Mother Tongue
English
5
5
5
10.Technical Expertise
Electrochemistry:
1) Electrochemical impedance spectroscopy
2) Potentiodynamic polarization, open-circuit relaxation potential curve
3) Electrochemical Scanning Tunneling Microscopy
Materials Characterization:
1) Imaging (Optical microscopy, Scanning Electron Microscopy, Atomic force microscopy)
2) Identification and structure analysis (X-ray diffraction, Transmission electron microscopy,
X-ray photoelectron spectroscopy, Electron backscatter diffraction technique)
Coating formation:
1) Chemical conversion coating
2) Micro-Arc Oxidation coating
3) Chemical vapor deposition coating
11. Research Areas:
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Study on electrochemical reaction and mechanisms of corrosion phenomena for a wide range of
alloy materials by using sophisticate electrochemical techniques such as scanning vibrating
electrode technique (SVET), scanning ion-selective electrode technique (SIET), electrochemical
impedance spectroscopy (EIS); Cyclic voltammetry and so on.
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Analyses and research on material corrosion and protection by chemical conversion coatings,
anodizing oxidation coating, polymer coating.
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Theoretical and experimental work to carry out to develop a better understanding of the alloy
/solution interface, the corrosion behavior of alloy “real” surfaces of these properties.
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The experiment and theory on interfacial electric double layer
12. Scientific Research Projects and Rewards:
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China National Natural Sciences Foundation (NO. 20703029), 1/2008-12/2008
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Beijing Youth Key Talent Foundation of China (NO.PHR201008201), 1/2010-12/2012
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Major Project of Chinese National Programs for Fundamental Research and Development (973
Program No. 2007CB707702), 7/2006-6/2008
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China National Foundation of Technology Innovation of Technology-based SMEs (No.
01C26214200911), 9/2003-6/2006
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2007 Excellent Doctoral Dissertation Foundation of Huazhong University of science and
technology(HUST)
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Huazhong University of science and technology -Waseda University Mutual Foundation,
9/2002-10/2003
13. Research Accomplishment:
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The corrosion process of chemical conversion coating in NaCl solution was investigated using
many methods such as scanning vibrating electrode technique (SVET), scanning ion-selective
electrode technique (SIET), electrochemical impedance spectroscopy (EIS), potentiodynamic
polarization curve.
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Mathematical models for Faradic admittance of conversion coating in NaCl solution by means of
EIS were proposed.
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The difference between synergistic corrosion and erosion–corrosion of mild steel in SiC
suspension has been systematically studied.
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A systematic study was provided on the chemical conversion processes of magnesium alloys by
means of electrochemical method.
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Many methods were proposed to analysis the chemical conversion coating, using the
microstructure, morphology information obtained from XRD, SEM, AFM, TEM,XPS, LEED.
The process and change of chromium-free conversion coating was clarified.
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New treatment process including formula for magnesium alloy was developed and improved,
which made the chromium-free conversion treatment more complete and effective.
14. Research interest:
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Study on electrochemical kinetics of reactive ion across the alloy micro strucure face/solution
interface, such as ion flux, ion current, by means of scanning vibrating electrode technique
(SVET), scanning ion-selective electrode technique (SIET).
Dynamic simulation of alloy corrosion reaction using ab initio quantum chemistry method.
Alloy/solution Interface micro electrochemical properties.
15. Publications:
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Zhao Ming, Wu Shusen, An Ping, Luo Jirong. Microstructure and corrosion resistance of a
chromium-free multi-elements complex coating on AZ91D magnesium alloy. Materials
Chemistry and Physic. 2006, 99(1)：54-60 (SCI 060NT).
Zhao Ming, Jiadao Wang, Darong Chen, Xiaopeng Hao, Baoyi Wang. The difference
between synergistic erosion–corrosion and corrosion of mild steel in SiC suspension. Journal
of Alloys and Compounds. 2008,466：421-428. (SCI 366LQ).
Zhao Ming, Guangping He, Bonong Wu, Dehui Sun. Study on the Structure and Corrosion
Resistance of Multi-elements Conversion Coating on AZ91D Magnesium Alloy. Surface
Technology.2009, 38：28-30.
Zhao Ming, Wu Shusen, An Ping, Luo Jirong. Study on the deterioration process of a
chromium-free conversion coating on AZ91D magnesium alloy in NaCl solution. Applied
Surface Science. 2006, 253(2)：468-475 (SCI 114DV).
Zhao Ming, Wu Shusen, An Ping, Luo Jirong. Growth of chromium-free conversion coating
on AZ91D and its performance. Journal of alloys and compounds. 2007, 427：310-315 (SCI
129NI, EI064910285225).
Zhao Ming, Wu Shusen, Luo jirong Fukuda Y., H. Nakae. A chromium-free conversion
coating of magnesium alloy by a phosphate-permanganate solution. Surface and Coatings
Technology. 2006, 200(18-19)：5407-5412 (SCI 030QG， EI 06139782030).
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Zhao Ming, Wu Shusen, Luo Jirong, Li Dongnan. Process for Phosphate-permanganate
Conversion Coating of Mg Alloy. Special Casting &Nonferrous Alloys.2005, 6 (25)：328-329
(EI 05289209456).
Zhao Ming, Wu Shusen, An Ping, Luo Jirong. Influence of surface pretreatment on the
chromium-free conversion coating of magnesium alloy. Materials Chemistry and Physics.
2007, 103：475-483 (SCI185MO).
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Zhao Ming, Guangping He, Bonong Wu, Dehui Sun. The water wettability of the
hydrogenated and oxygenated nanocrystallinge diamond films. Internatiional conference on
nonoscience and Technology China 2009.187-188.
Zhao Ming, Guangping He, Bonong Wu, Dehui Sun. Role of SiC Nanoparticle in flow
induced corrosion of mild steel in aqueous fluid. Internatiional conference on nonoscience
and Technology China 2009.527-528.
Ming Zhao, Jiadao Wang, Darong Chen, Xiaopeng Hao, Baoyi Wang. Positron annihilation
study the micro-defects induced by cavitation in mild steel. Physica B: Condensed matter.
Physica B. 2008,403：2594-2596 (SCI 330BU).
Zhao Ming, Wu Shusen, An Ping, Luo Jirong. Investigation on chromium-free converison
coating on AZ91D magnesium alloy. Journal of Chinese society for corrosion and
protection. 2007，27(1)：17-22.
Wu Shusen, Zhao Ming, Luo Jirong, Mao Youwu. Properties of conversion coating of
magnesium alloys by a phosphate-permanganate Solution. Materials science forum. 2005，
488-489：665-668. (SCIBCO26).
16. Conferences, Meetings and Workshops:
Invited presentations
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“Process for Phosphate-permanganate Conversion Coating of Mg Alloy”. China special casting
and nonferrous alloys 10th annual conference, Foundry Institution of Chinese Mechanical
Engineering Society, Kunming, China, Jul. 24 2004.
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“Role of SiC Nanoparticle in flow induced corrosion of mild steel in aqueous fluid”, “The water
wettability of the hydrogenated and oxygenated nanocrystallinge diamond films” China National
Center for Nanoscience and Technology. Internatiional conference on nanoscience and
Technology China 2009, Beijing, China, Sep.1 2009.
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“The Cavitation Erosion of the Mild Carbon Steels Implanted with Titanium and Nitrogen”. 5th
China International Symposium on Tribology(CIST 2008) and 1st International Tribology
Symposium of IFToMM(ITS-IFToMM 2008). Tsinghua University, Beijing, China, Sep. 24
2008.