肖博 教授

Email: xiaobo_9@tju.edu.cn

单位：焊接与先进制造技术研究所

教育背景：

·2015.09-2020.11，天津大学，材料加工工程，硕博连读

·2011.09-2015.07，西北工业大学，材料成型及控制工程，学士

工作经历：

·2021.02-2025.02，香港城市大学，博士后

·2025.02-至今，天津大学材料科学与工程学院，教授

研究方向

·先进金属材料的开发与设计（高熵合金、金属间化合物等）

·先进金属材料的力学性能与变形行为

·先进金属材料的组织表征（透射电镜、三维原子探针等）

·先进金属材料的高性能焊接与增材制造

承担项目

·国家高层次青年人才项目，主持

·天津大学北洋学者英才计划项目，主持

·国家自然科学基金面上项目，参与

标志性成果

[1]B. Xiao, J.H. Luan, S.J. Zhao, L.J. Zhang, S.Y. Chen, Y.L. Zhao, L.Y. Xu, C.T. Liu, J.J. Kai, T. Yang. Achieving thermally stable nanoparticles in chemically complex alloys via controllable sluggish lattice diffusion. Nature Communications 13 (2022) 4870.

[2]B. Xiao, J. Zhang, S.F. Liu, Y.H. Zhou, J. Ju, J.J. Kai, Y.L. Zhao, X.W. Yang, L.Y. Xu, S.J. Zhao, T. Yang. Ultrahigh intermediate-temperature strength and good tensile plasticity in chemically complex intermetallic alloys via lamellar architectures. Acta Materialia 262 (2024) 119459.

[3]B. Xiao, L.Y. Xu, C. Cayron, J. Xue, G. Sha, R. Loge. Solute-dislocation interactions and creep-enhanced Cu precipitation in a novel ferritic-martensitic steel. Acta Materialia 195 (2020) 199–208.

[4]R. Zhang^#, Y.Q. Zhang^#, B. Xiao^#, S.C. Zhang, Y.B. Wang, H.L. Cui, C. Li, Y. Hou, Y. Guo, T. Yang, J. Fan, C.Y. Zhi. Phase engineering of high-entropy alloy for enhanced electrocatalytic nitrate reduction to ammonia. Angewandte Chemie International Edition 63 (2024) e202407589.

[5]B. Xiao, S.D. Yadav, L. Zhao, Z.X. Tang, Y.D. Han, X.W. Yang, J.J. Kai, T. Yang, L.Y. Xu. Deep insights on the creep behavior and mechanism of a novel G115 steel: Micromechanical modeling and experimental validation. International Journal of Plasticity 147 (2021) 103124.

[6]B. Xiao^#, R. Chen^#, J.Y. Zhang, J.X. Zhang, Y.H. Zhou, J. Ju, Y.L. Zhao, L.Y. Xu, T. Yang. Additively manufactured heterogeneous precipitation-strengthened high-entropy alloys with high strength and ductility. Additive Manufacturing 77 (2023) 103795.

[7]B. Xiao, J.X. Zhang, S.F. Liu, Y.L. Zhao, L.Y. Xu, C.T. Liu, T. Yang. Off-stoichiometry-guided design of high-strength chemically complex intermetallic-based alloys with outstanding ductility. Journal of Materials Science & Technology 160 (2023) 28-33.

[8]B. Xiao, H.K. Dong, T. Yang, S.F. Liu, S.B. Jin, B.X. Cao, Y.D. Han, L. Zhao, X.W. Yang, G. Sha, L.Y. Xu. Creep-induced heterogeneous precipitation of Laves phase with two morphologies in tempered martensite ferritic steels. Materials Research Letters 11 (2023) 630-637.

[9]B. Xiao, S.F. Liu, J.Y. Zhang, Y.H. Zhou, Q. Li, J.X. Hou, W.C. Xiao, J.X. Zhang, Y.L. Zhao, C.T. Liu, L.Y. Xu, T. Yang. Environmental embrittlement behavior of high-entropy alloys. Microstructures 3 (2023) 2023006.

[10]B. Xiao, L.Y. Xu, Z.X. Tang, L. Zhao, H.Y. Jing, Y.D. Han, H.Z. Li. A physical-based yield strength model for the microstructural degradation of G115 steel during long-term creep. Materials Science & Engineering A 747 (2019) 161-176.