刘超，男，1988年生，博士。2019年毕业于北京科技大学材料科学与工程学院，获得博士学位；2019年2月进入北京科技大学新材料技术研究院从事博士后研究工作。主要致力于材料局部腐蚀微区电化学技术前沿的理论与应用研究和耐蚀材料的研发等研究，曾参与过国家973项目、国家自然科学基金项目、“国家科技条件平台”、教育部自主科研计划等项目。在Corrosion Science、Journal of The Electrochemical Society、Journal of Materials Engineering and Performance、Metallurgical and Materials Transactions B等高水平期刊发表多篇论文，参编、参修团体标准47项。2017年获得第十五届全国青年腐蚀与防护科技论文讲评会二等奖。2020年获得北京市科学技术发明一等将。

　　1、获得2020年北京市科学技术发明一等奖

　　2、在Corrosion Science、Journal of The Electrochemical Society、Journal of Materials Engineering and Performance等权威期刊发表论文多篇，部分代表性论文如下：

　　Liu, C., Jiang, Z., Zhao, J., Cheng, X., Liu, Z., Zhang, D., & Li, X.. Influence of rare earth metals on mechanisms of localised corrosion induced by inclusions in Zr-Ti deoxidised low alloy steel. Corrosion Science, 108463 (2020).

　　Liu, C., Revilla, R. I., Zhang, D., Liu, Z., Lutz, A., Zhang, F., ... & Terryn, H.. Role of Al₂O₃ inclusions on the localized corrosion of Q460NH weathering steel in marine environment. Corrosion Science, 138, 96-104(2018).

　　Liu, C., Revilla, R. I., Liu, Z., Zhang, D., Li, X., & Terryn, H.. Effect of inclusions modified by rare earth elements (Ce, La) on localized marine corrosion in Q460NH weathering steel. Corrosion Science, 129, 82-90 (2017).

　　Liu, C., Yang, S., Li, J., Zhu, L., & Li, X.. Motion behavior of nonmetallic inclusions at the interface of steel and slag. Part I: Model development, validation, and preliminary analysis. Metallurgical and Materials Transactions B, 47(3), 1882-1892 (2016).

　　Liu, C., Cheng, X., Dai, Z., Liu, R., Li, Z., Cui, L., ... & Ke, L.. Synergistic Effect of Al2O3 Inclusion and Pearlite on the Localized Corrosion Evolution Process of Carbon Steel in Marine Environment. Materials, 11(11), 2277 (2018).

　　Zhao, T., Liu, Z., Du, C., Liu, C., Xu, X., & Li, X.. Modeling for corrosion fatigue crack initiation life based on corrosion kinetics and equivalent initial flaw size theory. Corrosion Science, 142, 277-283 (2018).

　　Cui, Z., Wang, L., Zhong, M., Ge, F., Gao, H., Man, C., Liu, C., ... & Wang, X.. Electrochemical Behavior and Surface Characteristics of Pure Titanium during Corrosion in Simulated Desulfurized Flue Gas Condensates. Journal of The Electrochemical Society, 165(9), C542-C561(2018).

　　Yang, S., Li, J., Liu, C., Sun, L., & Yang, H.. Motion behavior of nonmetal inclusions at the interface of steel and slag. Part II: Model application and discussion. Metallurgical and Materials Transactions B, 45(6), 2453-2463 (2014).

　　Zhao, T., Liu, Z., Chao, L., Dai, C., Du, C., & Li, X.. Variation of the Corrosion Behavior Prior to Crack Initiation of E690 Steel Fatigued in Simulated Seawater with Various Cyclic Stress Levels. Journal of Materials Engineering and Performance, 27(9), 4921-4931 (2018).

　　3、部分参编参修的团体标准如下：

　　T/CSTM 00046.1-2018/T/CSCP 0035.1-2018 低合金结构钢腐蚀试验 第 1 部分:总则

　　T/CSTM 00046.2-2018/T/CSCP 0035.2-2018 低合金结构钢腐蚀试验 第 2 部分：模拟气氛腐蚀试验

　　T/CSTM 00046.3-2018/T/CSCP 0035.3-2018 低合金结构钢腐蚀试验 第 3 部分：模拟海洋环境腐蚀试验

　　T/CSTM 00046.12-2018/T/CSCP 0035.12-2018 低合金结构钢腐蚀试验 第 12 部分：电偶腐蚀试验方法

　　T/CSTM 00046.16-2018/T/CSCP 0035.16-2018 低合金结构钢腐蚀试验 第 16 部分：微区腐蚀电化学试验方法导则