个人简介
工作经历
2019.05 – 至今 南方科技大学,机械与能源工程 副教授
2015.12-2019.03 香港大学,机械工程 博士后
学习经历:
2011.09-2015.12 香港大学,机械工程 博士
2008.09-2011.03 上海交通大学,固体力学 硕士
2004.09-2008.07 兰州大学,理论与应用力学 学士
近期论文
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1. He BB, Hu B, Yen HW, Cheng GJ, Wang ZK, Luo HW, Huang MX. High dislocation density-induced large ductility in deformed and partitioned steels. Science, 2017, 357, 1029-1032. Impact factor: 41.058
2. He BB, Luo HW, Huang MX. Experimental investigation on a novel medium Mn steel combining transformation-induced plasticity and twinning-induced plasticity effects. International Journal of Plasticity, 2016; 78: 173-186. Impact factor: 5.502
3. He BB, Huang MX. Strong and ductile medium Mn steel without transformation-induced plasticity effect. Materials Research Letter, 2018; 6: 365-371. Impact factor: 6.161
4. He BB, Huang MX, Liang ZY, Ngan AHW, Luo HW, Shi J, et al. Nanoindentation investigation on the mechanical stability of individual austenite grains in a medium-Mn transformation-induced plasticity steel. Scripta Materialia, 2013;69:215-8. Impact factor: 4.163
5. He BB, Liang ZY, Huang MX. Nanoindentation investigation on the initiation of yield point phenomenon in a medium Mn steel. Scripta Materialia, 2018; 150: 134-138. Impact factor: 4.163
6. He BB, Wang M, Huang MX. Resetting the austenite stability in a medium Mn steel via dislocation engineering. Metallurgical and Materials Transactions A, 2019, 50, 2971–2977. Impact factor: 1.887
7. He BB, Wang M, Liu L, Huang MX. High-strength medium Mn quenching and partitioning steel with low yield ratio. Material Science and Technology, 2019, http://dx.doi.org/10.1080/02670836.2019.1566046. Impact factor: 1.803
8. He BB, Liu L, Huang MX. Room-temperature quenching and partitioning steel. Metallurgical and Materials Transactions A, 2018, 49, 3167-3172. Impact factor: 1.887
9. He BB, Huang MX. Simultaneous increase of both strength and ductility of medium Mn steel by vanadium alloying. Metallurgical and Materials Transactions A, 2018, 49, 1433-1438. Impact factor: 1.887
10. He BB, Huang BM, He SH, Qi Y, Yen HW, Huang MX. Increasing yield strength of medium Mn steel by engineering multiple strengthening defects. Materials Science and Engineering: A, 2018; 724: 11-16. Impact factor: 3.414
11. He BB, Xu W, Huang MX. Effect of boron on the bainitic transformation kinetics after the ausforming process in low carbon steels. Journal of Materials Science & Technology, 2017, 33 (12):1494-1503. Impact factor: 3.609
12. He BB, Huang MX, Revealing heterogeneous C partitioning in a medium Mn steel by nanoindentation. Material Science and Technology. 2017,33, 552-558. Impact factor: 1.803
13. He BB, Huang MX. On the mechanical stability of austenite matrix after martensite formation in a medium Mn steel. Metallurgical and Materials Transactions A, 2016;47: 3346-53. Impact factor: 1.887
14. He BB, Huang MX. Revealing the intrinsic nanohardness of lath martensite in low carbon steel. Metallurgical and Materials Transactions A, 2015;46:688-94. Impact factor: 1.887
15. He BB, Xu W, Huang MX. Effect of ausforming temperature and strain on the bainitic transformation kinetics of a low carbon boron steel. Philosophical Magazine, 2015;95:1150-63. Impact factor: 1.632
16. He BB, Huang MX, Ngan AHW, Van Der Zwaag S. Effect of free surface on the stability of individual retained austenite grains in a duplex stainless steel. Metallurgical and Materials Transactions A, 2014;45:4875-81. Impact factor: 1.887
17. He BB, Xu W, Huang MX. Increase of martensite start temperature after small deformation of austenite. Materials Science and Engineering: A, 2014;609:141-6. Impact factor: 3.414
18. He BB, Zhu K, Huang MX. On the nanoindentation behaviour of complex ferritic phases. Philosophical Magazine Letters, 2014;94:439-46. Impact factor: 1.194
19. He SH, He BB, Zhu KY, Huang MX. Evolution of dislocation density in bainitic steels: modeling and experiments. Acta Materialia, 2018; 149: 46-56. Impact factor: 6.036
20. He SH, He BB, Zhu KY, Huang MX. On the correlation among dislocation density, lath thickness and yield stress of bainite. Acta Materialia, 2017; 135: 382-389. Impact factor: 6.036