付辉 副教授

          教育背景   博士

          研究领域   材料学

 研究方向   金属材料强韧化

电子邮箱   fuhui@gzhu.edu.cn

                                      所在系所 材料科学与工程系 物理与材料科学学院

 

▍个人简介

2018年博士毕业于燕山大学材料学专业，2018年至2022年在香港理工大学从事博士后研究工作，2023年入职广州大学物理与材料科学学院。具体研究内容为通过先进制造工艺（如高压凝固、大塑性变形和3D打印等）对金属材料（如镁合金、铝合金、钢、铜和高熵合金等）微观组织进行调控，研究其强韧化机理，从而开发出低成本高性能的金属结构材料。近年来，在国内外知名期刊上发表SCI学术论文30余篇，Google Scholar引用次数达680余次；授权中国发明专利8项；2017年荣获河北省技术发明奖一等奖，2019年荣获香港理工大学博士后奖学金（PDF），2021年荣获首届全国博士后创业大赛海外（境外）赛优胜奖。担任《Rare Metals》期刊青年编委，担任Journal of Magnesium and Alloys、Frontiers in Materials-Structural Materials和Journal of Iron and Steel Research International等期刊审稿人。

 

▍参与课题

1. 梯度纳米结构金属材料的应力松弛与蠕变行为及其原子尺度机制研究，国家自然科学基金面上项目（60万元），2020-2023，参与。

2. 超高压(1-10GPa)镁合金微结构调控及其原位力学/腐蚀性能研究，国家自然科学基金面上项目（60万元），2018-2021，参与。

 

▍主要论文

1.     H. Fu, S. Yuan, K.C. Chan, et al. Superior strength-ductility synergy and fatigue resistance of heterogeneous structured AZ41 Mg alloy by laser surface processing, Materials Science and Engineering: A, 2022, 858: 144151.

          2.     R. Shi,H. Fu, K. Chen, et al. Combining synergetic effects of gradient nanotwins and nanoprecipitates in hetero

               geneous bronze alloy, Acta Materialia, 2022, 229: 117831.

3.     X. Zhou, H. Fu, J. Zhu, et al. Atomistic simulation of the surface severe plastic deformation-induced grain refinement in polycrystalline magnesium: the effect of processing parameters. Journal of Magnesium and Alloys, 2022, 10(5): 1242-1255.

4.     H. Fu, X. Zhou, B. Wu et al. Atomic-scale dissecting the formation mechanism of gradient nanostructured layer on Mg alloy processed by a novel high-speed machining technique, Journal of Materials Science & Technology, 2021, 82: 227-238.

5.     H. Fu, S. Yuan, W. Sun et al. A novel atomic movement mechanism of intersection-induced bct-α → bcc-α′ martensitic phase transformation, Scripta Materialia, 2021. 204: 114153.

6.     B. Wu, H. Fu, X. Zhou, et al, Severe plastic deformation-produced gradient nanostructured copper with a strengthening-softening transition, Materials Science and Engineering: A, 2021, 819: 14149.

          7.     Q. Peng, Y. Sun, J. Wang, Q. Zu, M. Yang, H. Fu. Structural characteristics of {10-11} contraction twin-twin in

               teraction in magnesium. Acta Materialia, 2020, 192: 60-66.

          8.     Q. Peng, Y. Sun, B. Ge, H. Fu et al., Interactive contraction nanotwins-stacking faults strengthening mechanism

               of Mg alloys. Acta Materialia, 2019. 169: 36-44.

          9.     B. Ge, H. Fu, K. Deng et al. Unique strengthening mechanisms of ultrahigh pressure Mg alloys. Bioactive

               Materials, 2018, 3(3): 250-254.

          10.    M. Liu,H. Fu, C. Xu et al. Precipitation kinetics and hardening mechanism in Al-Si solid solutions processed

                 by high pressure solution treatment. Materials Science and Engineering: A, 2018, 712: 757-764.

11.    H. Fu, B. Ge, Y. Xin et al. Achieving high strength and ductility in magnesium alloys via densely hierarchical double contraction nanotwins. Nano Letters, 2017, 17(10): 6117-6124.

12.    H. Fu, N. Liu, Z. Zhang et al. Effect of super high pressure on microstructure and mechanical properties of Mg₉₇Zn₁Y₂ alloys. Journal of Magnesium and Alloys, 2016, 4(4): 302-305.

13.    H. Fu, W. Wu, Y. Dou et al. Hydrogen diffusion kinetics and structural integrity of superhigh pressure Mg-5 wt% Ni alloys with dendrite interface. Journal of Power Sources, 2016, 320: 212-221.

14.    H. Fu, H. Li, D. Fang et al. High ductility of a bi-modal Mg-7wt.% Y alloy at low temperature prepared by high pressure boriding and semi-solid extrusion. Materials & Design, 2016, 92: 240-245.

15.    H. Fu, J. Guo, W. Wu et al. High pressure aging synthesis of a hexagonal Mg₂Sn strengthening precipitate in Mg-Sn alloys. Materials Letters, 2015, 157: 172-175.

          16.    H. Fu, Q. Peng, J. Guo et al. High-pressure synthesis of a nanoscale YB₁₂strengthening precipitate in Mg-Y

                 alloys. Scripta Materialia, 2014, 76: 33-36.

          17.    Q. Peng, H. Fu, W. Xiao. Serration flow behavior with abnormal strain rate sensitivity of fine- grained

                 Mg-0.8 wt pct Ca alloy. Metallurgical and Materials Transactions A, 2013, 44(10): 4469-4474.

 

▍专利授权

[1] 杨许生，付辉，伍博，袁书情，孙婉婷。一种超精密加工技术制备梯度纳米结构金属材料的方法，授权专利号ZL201910715729. X

[2] 彭秋明，付辉，李慧，潘美玲。一种镁合金板材加工方法，授权专利号ZL201310199666. X

[3] 彭秋明，付辉，李慧。一种镁合金熔炼保护熔剂及其制备方法，授权专利号ZL20131024 9831.8

[4] 彭秋明，付辉，李慧。一种镁合金纤维丝的生产装置，授权专利号ZL201410020109.1

[5] 彭秋明，付辉，李慧。一种高耐热性镁稀土硼合金及其制备方法，授权专利号ZL20141006 6316.0

[6] 彭秋明，付辉，李寒宁，王栋彬。一种耐热核壳强化相镁合金及其制备方法，授权专利号ZL201510812065.0