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周勇,博士,副教授,硕士生导师

地址:中国.湖北.武汉.东湖新技术开发区光谷一路206号,金沙检测线路js95

邮编:430205

Email:zhouyong@wit.edu.cn,zhouyong_wit@163.com

电话:+86-27-87194980

教育背景

2009年-2015年北京化工大学材料科学与工程学院,硕士、博士

2005年-2009年金沙检测线路js95,学士

工作履历

2015年7月至今,金沙检测线路js95,讲师、副教授

2020年7月至今,武汉仕全兴聚氨酯科技有限公司,“科技副总”

学术兼职

中国新材料测试评价联盟耐蚀材料行业分会副理事长,中国腐蚀与防护学会会员、非金属耐蚀材料及先进制备技术专业委员会委员

研究领域

腐蚀电化学

材料腐蚀与防护

金属表面处理

水性防腐涂料

水性金属清洗剂

凝胶渗透色谱(GPC)

学术成果

代表性论文:

[1] Effects of chelating agents on electrochemical behavior and microstructure of phosphate conversion coatings on magnesium alloy AZ91D, International Journal of Electrochemical Science 9 (2014) 5258-5271. (第一作者)

[2] The passivation behavior of mild steel in CO2 saturated solution containing nitrite anions, Journal of the Electrochemical Society 162 (2015) C47-C54. (第一作者)

[3] The inhibition of sodium oleate for pitting corrosion of aluminum alloy 2024 in 0.1 mol L-1 NaCl solution, Journal of the Brazilian Chemical Society 26 (2015) 1656-1663. (第四作者)

[4] The study of a phosphate conversion coating on magnesium alloy AZ91D: I. Formation, morphology and composition, International Journal of Electrochemical Science 10 (2015) 2812-2824. (第一作者)

[5] The intergranular corrosion of mild steel in CO2 + NaNO2 solution, Electrochimica Acta 154 (2015) 157-165. (第一作者)

[6] The study of a phosphate conversion coating on magnesium alloy AZ91D: II. Effects of components and their content in phosphating bath, International Journal of Electrochemical Science 10 (2015) 8454-8464. (通讯作者)

[7] The inhibitive mechanisms of nitrite and molybdate anions on initiation and propagation of pitting corrosion for mild steel in chloride solution, Applied Surface Science 353 (2015) 924-932. (第一作者)

[8] The relation between intergranular corrosion and electrochemical characteristic of carbon steel in carbonic acid and sodium nitrite solutions, International Journal of Electrochemical Science 11 (2016) 3976-3986. (第一作者)

[9] The preparation and characterization of a nano-CeO2/phosphate composite coating on magnesium alloy AZ91D, Surface & Coatings Technology 328 (2017) 335-343. (第一作者/通讯作者)

[10] Effect of nanosilica content on the corrosion inhibition of composite coatings of a filled epoxy resin grafted with a hydrophobic fluoroalkylsilane: a dual critical concentrations interpretation, RSC Advances 7 (2017) 48876-48893. (第三作者)

[11] The study of a phosphate conversion coating on magnesium alloy AZ91D: III. Nano-particle modification, International Journal of Electrochemical Science 12 (2017) 4238-4250. (通讯作者)

[12] The structure and composition of corrosion product film and its relation to corrosion rate for carbon steels in CO2 saturated solutions at different temperatures, Journal of the Brazilian Chemical Society 28 (2017) 2490-2499. (第一作者/通讯作者)

[13] The preparation, characterization and formation mechanism of a calcium phosphate conversion coating on magnesium alloy AZ91D, Materials 11 (2018) No. 908. (第三作者)

[14] The effects of chloride anions on corrosion and passivation behavior of 254SMO stainless steel in water absorbed of blast furnace gas (BFG), International Journal of Electrochemical Science 13 (2018) 1656-1665. (通讯作者)

[15] Effects of nitrite anions on surface passive film properties for Q235 carbon steels, Surface Review and Letters 26 (2019) No. 1850218. (第一作者/通讯作者)

[16] The effects of pH values on functional mechanisms of nitrite anions for Q235 carbon steels in 0.01 mol L-1 NaNO2-HCl solutions, Journal of the Brazilian Chemical Society 30 (2019) 1688-1696. (第一作者/通讯作者)

[17] The influences of chloride anions on corrosion electrochemical characteristics of 904L stainless steel in blast furnace gas/water system, International Journal of Electrochemical Science 14 (2019) 919-928. (通讯作者)

[18] The relationship between activation-passivation transition and grain boundary dissolution on four steel samples in acidic solutions containing NO2-, RSC Advances 9 (2019) 23589-23597. (第一作者/通讯作者)

[19] Influences of NH4+ ions and thin electrolyte layers (TEL) thickness on the corrosion behavior of AZ91D magnesium alloy, Materials and Corrosion 70 (2019) 2088-2102. (第四作者)

[20] The study of a phosphate conversion coating on magnesium alloy AZ91D: IV. Comparison of electrochemical behaviors in borate buffer and sodium chloride solutions, International Journal of Electrochemical Science 14 (2019) 11349-11357. (通讯作者)

[21] The corrosion behavior of chromated AA2024 aluminum alloy in 3.5 % NaCl solution, Anti-corrosion materials and methods 66 (2019) 879-887. (第一作者/通讯作者)

[22] An electrochemical study of pH influences on corrosion and passivation for a Q235 carbon steel in HNO3-NaNO2, HAc-NaNO2 and HCl-NaNO2 solutions, RSC Advances 9 (2019) 39055-39063. (通讯作者)

[23]The electrochemical behavior of corrosion and passivation for Q235 carbon steel in acidic phosphate buffer solutions without and with NO2-, Anti-corrosion materials and methods 67 (2020) 473-481. (通讯作者)

[24]The comparative investigation of corrosion and passivation for X65 carbon steel in pH 1 to 5 HNO3solutions without and with 0.01 mol L-1NaNO2, Journal of the Brazilian Chemical Society 31 (2020) 731-738. (通讯作者)

[25]The role of WO42-on surface passivation for Q235 carbon steel in tungstate solution, Anti-corrosion materials and methods67(2020)483-489. (通讯作者)

[26] Surface passive film characteristic of Q235 carbon steel in pure molybdate solution, Surface Review and Letters 27(2020)No. 1950179. (通讯作者)

[27]Corrosion resistance of a Nano-Mg modified silane conversion coating with cathodic protection on magnesium alloy AZ91D, Materials Letters284(2020)No. 128930. (第一作者/通讯作者)

[28] Electrochemical investigation of the synergistic effect between molybdate and tungstate on surface passivation of carbon steel, International Journal of Electrochemical Science 16 (2021) 151027. (通讯作者)

[29] One-steppreparation and characterization of a Ce-La-Y ternary rare earth conversioncoating on magnesium alloy AZ91D, Materials Letters 304 (2021) No. 130640. (第一作者/通讯作者)

[30] EIScharacteristic of degradation process for carbon fiber/vinyl ester compositesin salt water, Journal of Composite Materials, Accepted. (第四作者)    

 

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