周耀，男，1990年生，中共党员，工学博士，兰州理工大学有色金属先进加工与再利用国家重点实验室专职科研人员。2024年9月毕业于北京科技大学并获工学博士学位，2025年入职兰州理工大学；目前在Corrosion Science、Mater Sci Eng A、Int J Hydrogen Energy 、J Mater Res Technol等国内外知名期刊已发表SCI论文10余篇，参与完成国家重点研发专项，国家自然科学基金等课题3项。目前主要从事金属材料的氢损伤机制，苛刻环境下结构材料的熔盐腐蚀行为等研究。

联系方式: zhouyao@lut.edu.cn

• 苛刻服役环境下结构材料的熔盐腐蚀行为与界面退化机理

• 面向深海/临氢能源装备金属材料的氢损伤机制

• 极端工况下机械构件摩擦磨损与表面工程防护技术研究

  近三年代表性成果

[1] Zhou Y, Li W, Cao Z, et al. Enhancing hydrogen embrittlement resistance through chemical heterogeneity in austenite of medium Mn steel. Corrosion Science. 2025, 249: 112857-65. WOS:001444636800001 一区top, IF: 7.4

[2] Zhou Y, Wu W, Li J. Heterostructures impacting deformation strengthening processes in QP steels: Investigating the interplay of grain rotation, slip transfer, and back stress strengthening. Journal of Materials Research and Technology. 2024;29:5340-53. WOS:001202669600001 一区, IF: 6.2

[3] Zhou Y, Wu W, Li J. Simultaneous improvement of hydrogen embrittlement resistance and tensile strength of quenching and partitioning steel through dense multiple interfaces. International Journal of Hydrogen Energy. 2024;58:1372-85. WOS:001174552700001 二区, IF: 8.1

[4] Zhou Y, Wang Z, Li W, Li J. Unveiling the inconsistent improvement of hydrogen embrittlement resistance by Nb precipitates in medium Mn steels: Impact of hydrogen distribution. Materials Science and Engineering: A. 2025; 922: 147629-45. WOS:001373683900001 一区, IF: 6.1

[5] Wang Z, Li Z, Li J, Zhu X, Zhao Z, Xu J, Zhou Y*, et al. Synergistic enhancement mechanism of mechanical properties and hydrogen embrittlement resistance in medium Mn steels by coupling warm/cold rolling and delta ferrite. Materials Science and Engineering: A. 2025; 919: 147506-24. WOS:001355497800001 一区, IF: 6.1

[6] Li W, Zhou Y, Zhou Q, Li J. Analysis of the delayed cracking mechanism of an industrial hot-dip galvanized DP1180GI steel coil. Engineering Failure Analysis. 2024;160: 108215-33. 二区, IF: 4.0

[7] Li W, Zhou Y, Cao Z, Zhou Q, Li J. Mitigating hydrogen embrittlement sensitivity in quenching and partitioning steel by optimizing the microstructure of segregation bands. Mater Letter. 2024;371: 136975-9. 三区, IF: 2.0

[8] Wang Z, Li Z, Zhu X, Chen X, Li J, Zhou Y, et al. Correlational research of microstructure characteristics and hydrogen induced cracking in hot-rolled Fe-6Mn-0.2C-3Al steels. Corrosion Science. 2024;228: 111811-25. 一区top, IF: 7.4