赵建锋，工学博士，副研究员，入选德国“洪堡学者”。2020年7月博士毕业于西南交通大学，2015年2月至3月受外方邀请赴希腊亚里士多德大学开展合作研究，2019年9月至2020年3月在国家留学基金委（CSC）资助下赴德国埃尔朗根纽伦堡大学联合培养。主要研究方向为先进金属材料本构关系、多尺度模拟（位错动力学、晶体塑性有限元、经典有限元）以及材料服役安全与可靠性评价，近年来主持国家自然科学基金青年科学基金项目，国家资助博士后研究人员计划，太行国家实验室开放项目子课题，中央高校基本业务费等多项研究课题，参与国家重点研发计划以及国自然面上项目等项目若干项。迄今为止已在Journal of the Mechanics and Physics of Solids，International Journal of Plasticity，Acta Materialia，International Journal of Mechanical Sciences，Mechanics of Materials和Materials Science and Engineering: A等领域内重要期刊上发表学术论文三十余篇，谷歌学术引用近1000次，H指数14。受邀担任International Journal of Plasticity，Mechanics of Materials等多个期刊审稿人。

主要论文成果：

1. R. Lai, J. Zhao, L. Lei, L. Shi, S. Wu, X. Zhang*. Revealing the tensile anisotropic mechanisms of additive manufactured IN718 alloy based on crystal plasticity modeling. Computational Materials Science 251 (2025): 113735.

2. J. Zhao*, B. Liu*, W. Yu, Z. Lin, X. Lu, X. Zhang, H. Chen. Enhancing strength-ductility synergy of multilayer metals by periodic necking: Experiments and simulations. Mechanics of Materials 201 (2025): 105210.

3. J. Ding, B. Liu*, B. Zhang, J. Zhao*, B. Li, J. Feng, P. Ji, X. Luo, F. Yin*. The Laminated/Network Interface Design and Deformation Behavior of Multilayer Steel. Metallurgical and Materials Transactions A (2024): 1-16.

4. B. Zhang, B. Liu, J. He*, J. Zhao*, W. Fang, F. Yin. Laminate-network structure enabled ultra-high strength and ductility owing to hetero-deformation induced hardening. Materials Letters 377 (2024): 137336.

5. W. Yu, B. Liu*, J. Zhao, Z. Lin, S. Zheng, F. Yin, N. Hu*. Improving ductility of multilayer TWIP/Maraging steel through shear band delocalization and periodic multiple necking controlled by layer thickness. Scripta Materialia 241 (2024): 115865.

6. X. Du, S. Shuang, J. Zhao, Z. Fu, Q. Kan, X. Zhang*. Extra strengthening and Bauschinger effect in gradient high-entropy alloy: A molecular dynamics study. International Journal of Mechanical Sciences 264 (2024): 108829.

7. S. Zhang, J. Zhao, Y. Liang, J. Li*, X. Huang. Degradation and anisotropy characteristics of fracture toughness in Ni-based superalloys after phase coarsening. Materials Science and Engineering: A 889 (2024): 145852.

8. X. Lu, J. Zhao, Q. Wang, H. Ran, Q. Wang, C. Huang*. Effect of stress/strain partition on the mechanical behavior of heterostructured laminates: a strain gradient plasticity modeling. Results in Engineering 20 (2023): 101631.

9. J. Li*, J. Zhao, Q. Kan, Y. Tian, L. Yu, Y. Peng, X. Huang*. A Novel Equivalent Method for Computing Mechanical Properties of Random and Ordered Hyperelastic Cellular Materials. Materials 16.21 (2023): 6990.

10. Y. Liang, A. Luo, L. Yang, J. Zhao, L. Wang, Q. Wan*. Effect of interface structure and layer thickness on the mechanical properties and deformation behavior of Cu/Ag nanolaminates. Physica B: Condensed Matter 661 (2023): 414933.

11. X. Zhang*, J. Zhao (equally contributed), G. Kang, M. Zaiser*. Geometrically necessary dislocations and related kinematic hardening in gradient grained materials: A nonlocal crystal plasticity study. International Journal of Plasticity 163 (2023): 103553.

12. Y. Wang, C. Huang, X. Ma, J. Zhao, F. Guo, X. Fang, Y. Zhu*, Y, Wei*. The optimum grain size for strength-ductility combination in metals. International Journal of Plasticity 164 (2023): 103574.

13. J. Zhao, B. Liu, Y. Wang, Y. Liang, J. Li*, X. Zhang*. Dispersed strain bands promote the ductility of gradient nano-grained material: A strain gradient constitutive modeling considering damage effect. Mechanics of Materials 179 (2023): 104599.

14. Y. Xiong, J. Zhao, W. Rao, Z. Huang, G. Kang, X. Zhang*. Secondary orientation effects of Ni-based alloys with cooling holes: A strain gradient crystal plasticity FEM study. Chinese Journal of Theoretical and Applied Mechanics, 55(1), (2023): 120-133.

15. J. Zhao, X. Pan, J. Li, Z. Huang, Q. Kan, G. Kang, L. Zhou, X. Zhang*. Laser shock peened Ti-6Al-4 V alloy: Experiments and modeling. International Journal of Mechanical Sciences 213 (2022): 106874.

16. J. Zhao, B. Zhang, D. Liu, A. A. Konstantinidis, G. Kang, X. Zhang*. Generalized Aifantis’ strain gradient plasticity model with internal length scale dependence on grain size, sample size and strain. Acta Mechanica Sinica 38 (2022): 421188.

17. K. Yang, J. Zhao, F. He, Q. Kan, J. Zhao, X. Zhang*. Effect of the Surface Mechanical Attrition Treatment on the Ratcheting of Pure Copper: Macro/Micro-tests and Constitutive Modeling. Surface Technology, 51 (2022): 58-69.

18. Y. Wang, Y. Zhu*, Z. Yu, J. Zhao, Y. Wei*. Hetero-zone boundary affected region: a primary microstructural factor controlling extra work hardening in heterostructure. Acta Materialia 241 (2022): 118395.

19. S. Lu, J. Zhao, M. Huang, Z. Li, G. Kang, X. Zhang*. Multiscale discrete dislocation dynamics study of gradient nano-grained materials. International Journal of Plasticity 156 (2022): 103356.

20. X. Zhang*, X. Lu, J. Zhao, Q. Kan, Z. Li, G. Kang*. Temperature effect on tensile behavior of an interstitial high entropy alloy: Crystal plasticity modeling. International Journal of Plasticity 150 (2022): 103201.

21. Y. Liang, J. Li, J. Luo, X. Yang, S. Xiang, L. Wang, J. Zhao*, Q. Wan*. Interaction between deformation twins and interfaces in Cu/Ag alloys. Computational Materials Science 205 (2022): 111219.

22. J. Zhao, M. Zaiser, X. Lu, B. Zhang, C. Huang, G. Kang, X. Zhang*. Size-dependent plasticity of hetero-structured laminates: a constitutive model considering deformation heterogeneities. International Journal of Plasticity 145 (2021): 103063.

23. J. Zhao, X. Lu, J. Liu, C. Bao, G. Kang, M. Zaiser, X. Zhang*. The tension-compression behavior of gradient structured materials: A deformation-mechanism-based strain gradient plasticity model. Mechanics of Materials 159 (2021): 103912.

24. J. Zhao, X. Lu, F. Yuan, Q. Kan, S. Qu, G. Kang, X. Zhang*. Multiple mechanism based constitutive modeling of gradient nanograined material. International Journal of Plasticity 125 (2020): 314-330.

25. X. Lu, J. Zhao, Z. Wang, B. Gan, J. Zhao, G. Kang, X. Zhang*. Crystal plasticity finite element analysis of gradient nanostructured TWIP steel. International Journal of Plasticity 130 (2020): 102703.

26. X. Lu, J. Zhao, C. Yu, Z. Li, Q. Kan, G. Kang, X. Zhang*. Cyclic plasticity of an interstitial high-entropy alloy: experiments, crystal plasticity modeling, and simulations. Journal of the Mechanics and Physics of Solids 142 (2020): 103971.

27. J. Zhao, Q. Kan, L. Zhou, G. Kang, H. Fan, X. Zhang*. Deformation mechanisms based constitutive modelling and strength-ductility mapping of gradient nano-grained materials. Materials Science and Engineering: A 742 (2019): 400-408.

28. X. Li, J. Zhao, X. Zhang, X. Jiang*. Revealing the inhibition mechanism of grain size gradient on crack growth in gradient nano-grained materials. International Journal of Solids and Structures 172 (2019): 1-9.

29. J. Zhao, J. Liu, G. Kang, L. An, X. Zhang*. The competitive nucleation of misfit dislocation dipole and misfit extended dislocation dipole in nanocomposites. Acta Mechanica 228(7), (2017): 2541-2554.

30. J. Zhao, X. Zhang*, A.A. Konstantinidis and G. Kang. Correlating the internal length in strain gradient plasticity theory with the microstructure of material. Philosophical Magazine letters 95(6), (2015): 340-349.