上月  2019-04  下月




    曹博轩,现为哈尔滨工业大学(深圳材料科学与工程学院助理教授,目前从事先进合金的成分开发和结构设计等研究工作主要研究方向包括高性能结构材料合金化调控;力学响应行为和变形机理探索;以及金属材料微观组织演化及热稳定性评估。20229月已发表SCI论文20篇,其中第一(通讯)作者Acta MaterialiaScripta Materialia等国际高水平学术期刊上发表9篇。









    2018.09 - 2021.07  香港城市大学  材料科学工程  博士

    2015.09 - 2016.06  华中科技大学  材料科学与工程  交换

    2014.09 - 2018.06  山东大学  材料科学与工程  本科


    2022.09 - 至今  哈尔滨工业大学(深圳)  助理教授

    2021.04 - 2022.08  香港城市大学  博士后



    1. B.X. Cao, W.W. Xu, C.Y. Yu, S.W. Wu, H.J. Kong, Z.Y. Ding, T.L. Zhang, J.H. Luan, B. Xiao, Z.B. Jiao, Y. Liu, T. Yang, C.T. Liu, L12-strengthened multicomponent Co-Al-Nb-based alloys with high strength and matrix-confined stacking-fault-mediated plasticity. Acta Materialia, 229 (2022) 117763.

    2. B.X. Cao, D.X. Wei, X.F. Zhang, H.J. Kong, Y.L. Zhao, J.X. Hou, J.H. Luan, Z.B. Jiao, Y. Liu, T. Yang, C.T. Liu, Intermediate temperature embrittlement in a precipitation-hardened high-entropy alloy: The role of heterogeneous strain distribution and environmentally assisted intergranular damage. Materials Today Physics, 24 (2022) 100653.

    3. B.X. Cao, H.J. Kong, L. Fan, J.H. Luan, Z.B. Jiao, J.J. Kai, T. Yang, C.T. Liu, Heterogenous columnar-grained high-entropy alloys produce exceptional resistance to intermediate-temperature intergranular embrittlement, Scripta Materialia, 194 (2021) 113622.

    4. B.X. Cao, H.J. Kong, Z.Y. Ding, S.W. Wu, J.H. Luan, Z.B. Jiao, J. Lu, T. Yang, C.T. Liu, A novel L12-strengthened multicomponent Co-rich high-entropy alloy with both high γ′-solvus temperature and superior high-temperature strength, Scripta Materialia, 199 (2021) 113826.

    5. B.X. Cao, C. Wang, T. Yang, C.T. Liu, Cocktail effects in understanding the stability and properties of face-centered-cubic high-entropy alloys at ambient and cryogenic temperatures, Scripta Materialia, 187 (2020) 250-255.

    6. B.X. Cao, T. Yang, L. Fan, J.H. Luan, Z.B. Jiao, C.T. Liu, Refractory alloying additions on the thermal stability and mechanical properties of high-entropy alloys, Materials Science and Engineering: A, (2020) 140020.

    7. B.X. Cao, T. Yang, W.H. Liu, C.T. Liu, Precipitation-hardened high-entropy alloys for high-temperature applications: A critical review, MRS Bulletin, 44 (2019) 854-859.

    8. B.X. Cao, C. Wang, T. Yang, C.T. Liu, Interstitially strengthened metastable FeCoCr-based medium-entropy alloys with both high strength and large ductility. Applied Physics Letters, 119 (2021) 051902.

    9. B.X. Cao, Y.L. Zhao, T. Yang, C.T. Liu, L12-strengthened Co-rich alloys for high-temperature structural applications: A critical review. Advanced Engineering Materials, 23 (2021) 2100453.

    10. T. Yang, B.X. Cao, T.L. Zhang, Y.L. Zhao, W.H. Liu, H.J. Kong, J.H. Luan, J.J. Kai, W. Kuo, C.T. Liu, Chemically complex intermetallic alloys: A new frontier for innovative structural materials. Materials Today, 52 (2021) 161.

    11. Z.Y. Ding, B.X. Cao, J.H. Luan, Z.B. Jiao. Synergistic effects of Al and Ti on the oxidation behaviour and mechanical properties of L12-strengthened FeCoCrNi high-entropy alloys. Corrosion Science, 184 (2021) 109365.

    12. J.X. Hou, B.X. Cao, B. Xiao, Z.B. Jiao, T. Yang. Compositionally complex coherent precipitation-strengthened high-entropy alloys: a critical review. Rare Metals (2022): 1-14.

    13. J.X. Hou, S.F. Liu, B.X. Cao, J.H. Luan, Y.L. Zhao, Z. Chen, Q. Zhang, X.J. Liu, C.T. Liu, J.J. Kai, T. Yang, Designing nanoparticles-strengthened high-entropy alloys with simultaneously enhanced strength-ductility synergy at both room and elevated temperatures, 238 (2022) 118216.

    14. S.W. Wu, T. Yang, B.X. Cao, J.H. Luan, Y.F. Jia, L. Xu, Y.K. Mu, T.L. Zhang, H.J. Kong, X. Tong, J.C. Peng, G. Wang, Q.J. Zhai, J. Lu, C.T. Liu, Multicomponent Ni-rich high-entropy alloy toughened with irregular-shaped precipitates and serrated grain boundaries. Scripta Materialia 204 (2021): 114066.

    15. T. Yang, Y. Zhao, B.X. Cao, J.J. Kai, C.T. Liu, Towards superior mechanical properties of hetero-structured high-entropy alloys via engineering multicomponent intermetallic nanoparticles. Scripta Materialia, 183 (2020) 39-44.

    16. J.Y. Zhang, B. Xiao, Q Li, B.X. Cao, J.X. Hou, S.F. Liu, J.X. Zhang, W.C. Xiao, J.H. Luan, Y.L. Zhao, C.T. Liu T. Yang, Temperature-dependent microstructural evolutions and deformation mechanisms of (Ni2Co2FeCr)92Al4Nb4 high-entropy alloys. Journal of Alloys and Compounds (2022): 165597.

    17. H.J. Kong, T. Yang, T.L. Zhang, B.X. Cao, C.T. Liu, Nanostructured steels for advanced structural applications. Materials Futures, 1 (2020) 013501.

    18. H.J. Kong, T. Yang, R. Chen, S.Q. Yue, T.L. Zhang, B.X. Cao, C. Wang, W. Liu, J.H. Luan, Z.B. Jiao, C.T. Liu, Breaking the strength-ductility paradox in advanced nanostructured Fe-based alloys through combined Cu and Mn additions. Scripta Materialia, 186 (2020) 213-218.

    19. T.L. Zhang, J.M. Zhu, T. Yang, J.H. Luan, H.J. Kong, W.H. Liu, B.X. Cao, D. Wang, Y. Wang, C.T. Liu, A new α + β Ti-alloy with refined microstructures and enhanced mechanical properties in the as-cast state. Scripta Materialia, 207 (2022) 114260.

    20. J.X. Hou, Y. Tan, S.F. Liu, J.Y. Zhang, W.C. Xiao, H.J. Kong, Q. Li, B.X. Cao, J.H. Luan, Y.L. Zhao, J.J. Kai, T. Yang, High-temperature oxidation behaviors and mechanisms in newly designed L12-strengthened high-entropy alloys. Corrosion Science, 208 (2022) 110665.