已承担中科院战略性先导科技专项(B类)1项、国家自然科学基金面上项目3项、工信部等部委重点项目3项等,以及中国中车、沈飞、中核集团、沈鼓集团等企业合作项目十余项,累计申请科研经费4000余万元。
纳米金属的腐蚀与氧化:以纳米金属中氧化膜缺陷的原子尺度精准调控为核心科学问题,探索尺度效应、掺杂效应与界面效应对耐蚀/抗氧化性能的协同机制,突破现有材料的性能边界。
1. Y.C. Xin, W. Xu, W. Wang, B. Zhang, Thermal stability and oxidation behavior of nanostructured Ni-Al alloys with a high fraction of low angle grain boundaries, Corros. Sci. 250 (2025). 2. Z.C. Tang, W. Xu, D.Y. Zhao, B. Zhang, Enhancing strength and stress corrosion cracking resistance in high-Mg Al-Mg alloys through nanostructuring and controlled annealing, J. Mater. Sci. Technol. 224 (2025) 19–34. 3. Y.C. Xin, W. Xu, T.S. Liang, W. Wang, B. Zhang, Inhibiting the formation of planar defects in grown alumina scale on Ni-Al alloys, Corros. Sci. (2023) 111263. 4. Z.C. Tang, W. Xu, D.Y. Zhao, B. Zhang, Improving the strength and SCC resistance of an Al-5Mg-3Zn alloy with low-angle grain boundary structure, J. Mater. Sci. Technol. 161 (2023) 63–73. 5. T.S. Liang, Y.F. Jiang, H.Y. Li, W. Wang, Q. Zhang, B. Zhang, Enhanced oxidation resistance of Ce by addition of Ga and nanocrystallization, J. Mater. Sci. Technol. 147 (2023) 26–36. 6. [7] W. Xu, B. Zhang, K. Du, X.Y. Li, K. Lu, Thermally stable nanostructured Al-Mg alloy with relaxed grain boundaries, Acta Mater. 226 (2022) 117640. 7. W. Xu, Y.C. Xin, B. Zhang, X.Y. Li, Stress corrosion cracking resistant nanostructured Al-Mg alloy with low angle grain boundaries, Acta Mater. 225 (2022) 117607. 8. W. Xu, B. Zhang, X.Y. Li, K. Lu, Suppressing atomic diffusion with the Schwarz crystal structure in supersaturated Al-Mg alloys, Science 373(6555) (2021) 683–687. 9. Y. Jiang, B. Zhang, D. Wang, Y. Zhou, J. Wang, E.-H. Han, W. Ke, Hydrogen-assisted fracture features of a high strength ferrite-pearlite steel, J. Mater. Sci. Technol. 35(6) (2019) 1081–1087. 10. Y.H. Fan, B. Zhang, H.L. Yi, G.S. Hao, Y.Y. Sun, J.Q. Wang, E.H. Han, W. Ke, The role of reversed austenite in hydrogen embrittlement fracture of S41500 martensitic stainless steel, Acta Mater. 139 (2017) 188–195.
作为主要完成人(均排名第四),获得国家科技进步二等奖1项、辽宁省科技进步一等奖1项。
材料学
指导十余名博士研究生实现100%高水平就业,毕业生受聘于高校、科研单位及高技术企业。所指导的学生中,2人获中国科学院大学国家奖学金,1人获师昌绪一等奖学金,1人获师昌绪二等奖学金,1人获优秀青年论文奖及研究生创新基金;3人中期评估获优,另有多人获“三好学生”、“优秀班干部”等荣誉。
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