Zhang Bin
Basic information:Associate Professor, Department of Inorganic Materials
E-Mail: zb@ouc.edu.cn
Research Interests: Preparation, processing and surface protection of high performance magnesium matrix composites
Biography:
Educational Background and Work Experience:
2024.08-present Associate Professor, College of Materials Science and Engineering, Ocean University of China
2022.01-2024.07 Postdoctor, School of Materials, Northwestern Polytechnical University
2016.09-2021.12 Doctor, School of Materials, Northwestern Polytechnical University
2014.09-2016.09 Master, School of Materials, Northwestern Polytechnical University (graduated in advance)
2010.08-2014.07 Bachelor, School of Materials Science and Chemical Engineering, Harbin Engineering University
Academic Achievements and Awards:
During the doctoral period, as the first author (or the first supervisor, I second), I published 8 high-level papers and authorized 4 invention patents. Meanwhile, I have participated in the National Natural Science Foundation (NO.51771151, 52071268) and the 13th Five-Year equipment pre-research fund. I presided over the Key Project of Doctoral Thesis Innovation Fund (CX201905), and won the CASC Scholarship of China Aerospace Science and Technology Corporation Limited and other first-class and second-class scholarships for 6 times, and won the title of Outstanding Graduate Student of Northwestern Polytechnical University twice. During the post-doctoral research period, as the first author, I published 3 high-level academic papers and authorized 1 national invention patent, meanwhile, 2 authorized invention patents have realized the transformation of achievements, and successively presided over the Postdoctoral Foundation of State Key Laboratory of Solidification Technology and National Natural Science Foundation of China (Youth Science Foundation Project).
Projects:
1.2024-2026 National Natural Science Foundation of China (Youth Project): Study on the preparation and property regulation mechanism of (CNTs+AlN)/AZ91 composites with high modulus and high plasticity (NO.52301198) (host);
2.2021-2024 National Natural Science Foundation of China (Surface Project) : Collaborative regulation and strength-plasticity mechanisms of magnesium alloy interface construction and dislocation modification (NO.52071268) (mainly involved);
3.2022-2022 Postdoctoral Foundation of State Key Laboratory of Solidification Technology: Research on preparation and mechanisms of magnesium matrix composites with high modulus, high strength and high toughness (2022-BJ-04) (host);
4.2018-2021 National Natural Science Foundation of China (Surface Project): Theoretical research on preparation and strength-toughness mechanisms of magnesium matrix composites reinforced by in-situ AlN nanoparticles (NO.51771151) (mainly involved);
5.2018-2020 Key Project of Doctoral Thesis Innovation Fund: Study on strengthening and toughening mechanism of in-situ AlN/AZ91 magnesium matrix composites (CX201905) (host).
6.2016-2018 13th Five-Year Equipment Pre-research Fund: Design and preparation method of high-strength and high-plasticity magnesium matrix composites (mainly involved).
Research output:
1.B. Zhang, Y.X. Sun, T. Liang, Y.Z. Li, T. Li, J.C. Wang, R.R. Cai, C.L. Yang. Simultaneously enhancing the strength and ductility of as-extruded AlN/AZ91 composites via nano-precipitation and pyramidal slip, J. Mater. Sci. Technol., 2024, 172: 240-254
2.B. Zhang, Y.X. Sun, T. Liang, Y.Z. Li, T. Li, J.C. Wang, R.R. Cai, J.H. Wu, J. Zheng, C.L. Yang. The dramatic Portevin-Le Châtelier effect in AlN/AZ91 composites induced by pyramidal <c+a> dislocations shearing extension twins, Mater. Charact., 2023, 206: 113406
3.B. Zhang, Y.X. Sun, T. Liang, T. Li, C.L. Yang. Progress in strengthening and toughening of magnesium matrix composites, Foundry Technology, 2023, 44(3): 203-220
4.Y.X. Sun, C.L. Yang, B. Zhang, J.F. Fan, H.X. Li, T.H.Zhao, J. Li. The aging behavior, microstructure and mechanical properties of AlN/AZ91 composite, J. Magnes. Alloys, 2023, 11: 2458-2468
5.T. Liang, B. Zhang, Y.X. Sun, Y.Z. Li, T. Li, Z. Mao, J.C. Wang, R.R. Cai, Y.X. Wang, C.L. Yang. A first-principles study of the heterogeneous nucleation of Mg on AlN reinforcement particles, Mater. Today Commun., 2023, 34: 105277
6.Y.X. Sun, B. Zhang, C.L. Yang, Z.M. Zhang, T. Liang, T. Li, M. Zhu, J. Huang, J.M. Zu, J.C. Wang, R.R. Cai. Microstructure and mechanical properties of caliber rolled AlN/AZ91 composite, Mater. Sci. Eng. A, 2022, 853: 143779
7.B. Zhang, C.L. Yang, H.X. Li, Y.X. Sun, Y.Z. Yan, T.H. Zhao, X.L. Li, F. Liu. Achieving high strength-ductility combination and negligible yield asymmetry in extruded AlN/AZ91 composite rods, Mater. Sci. Eng. A, 2020, 773: 138842
8.B. Zhang, C.L. Yang, Y.X. Sun, J. Li, F. Liu. Effects of AlN reinforcement particles on the twinning nucleation and growth in AZ91 alloy, Mater. Today Commun., 2020, 24: 101023
9.B. Zhang, C.L. Yang, Y.X. Sun, X.L. Li, F. Liu. The microstructure, mechanical properties and tensile deformation mechanism of rolled AlN/AZ91 composite sheets, Mater. Sci. Eng. A, 2019, 763: 138118
10.X. Zhang1, L.K. Huang1, B. Zhang1, Y.Z. Chen, S.Y. Duan, G. Liu, C.L. Yang, F. Liu. Enhanced strength and ductility of A356 alloy due to composite effect of near-rapid solidification and thermo-mechanical treatment, Mater. Sci. Eng. A, 2019, 753: 168-178
11.C.L. Yang, B. Zhang, D.C. Zhao, X.B. Wang, Y.X. Sun, X.Y. Xu, F. Liu. Microstructure evolution of as-cast AlN/AZ91 composites and room temperature compressive properties, J. Alloys Compd., 2019, 774: 573-580
12.B. Zhang, C.L. Yang, D.C. Zhao, Y.X. Sun, X.B. Wang, F. Liu. Microstructure characteristics and enhanced tensile properties of in-situ AlN/AZ91 composites prepared by liquid nitriding method, Mater. Sci. Eng. A, 2018, 725: 207-214
13.C.L. Yang, B. Zhang, D.C. Zhao, X.L. Li, T.G. Zhai, Q.Y. Han, F. Liu. In-situ synthesis of AlN/Mg-Al composites with high strength and high plasticity, J. Alloys Compd., 2017, 699: 627-632
14.C.L. Yang, B. Zhang, D.C. Zhao, H.B. Lv, T.G. Zhai, F. Liu. Microstructure and mechanical properties of AlN particles in situ reinforced Mg matrix composites, Mater. Sci. Eng. A, 2016, 674: 158-163
Patents for invention:
1. B. Zhang, C.L. Yang, Y.X. Sun, et al. A high-modulus and high-ductility magnesium matrix composites and the corresponding fabrication technology. (ZL202211324347.2)
2. C.L. Yang, B. Zhang, D.C. Zhao, et al. Preparation technology of as-extruded bars and as-rolled plates of high performance magnesium matrix composites. (ZL201710981189.0)
3. C.L. Yang, B. Zhang, D.C. Zhao, et al. Short process rolling method of high-strength and high-plasticity AlN/AZ91D composites. (ZL201710996951.2)
4. C.L. Yang, D.C. Zhao, B. Zhang, et al. Rolling and heat treatment method of high performance AlN/AZ91D magnesium matrix composites. (ZL201711060886.9)
5. C.L. Yang, B. Zhang, H.B. Lv, et al. A method and device for in-situ strengthening preparation of as-cast magnesium matrix composite with high strength and high plasticity. (ZL201510670943.X)
6. C.L. Yang, B. Zhang, H.B. Lv, et al. A preparation method of high-strength and high-plasticity AlN/AZ91D magnesium matrix composites. (ZL201510882938.5)
