石仁海

个人简介

2016年美国内华达里诺大学博士。福建省引进高层次人才B类，研究专注于金属和有机在内的结构和能源材料，通过使用实验、理论分析和计算机模拟控制材料微观结构中的无序来优化材料机械和功能性能，探索材料中加工-结构-性能的关系。目前已担任“Coatings”、“Compounds”、“Crystals”、“Materials”、“Metals”等期刊的客座编辑。

教育背景

2011年北京科技大学冶金学院（学士）

2016年美国内华达里诺大学化工与材料学院（博士）

工作履历

2017-2020，美国俄亥俄州立大学博士后

2020-2023，北京科技大学副研究员

2023-2024，香港城市大学访问学者

2024-至今，福耀科技大学，新材料与新能源学院，副研究员

奖励荣誉

2024，福建省引进高层次人才B类

科研项目

1. 中央高校基本业务，2020.06-2023.12， 多层次-跨尺度的材料集成模拟计算，主持

2. 中央高校基本业务，2020.12-2022.11，铜合金高温氧化动力学的多层次、跨尺度机理，主持

学术成果

1. R. Shi*, Nonisothermal Dissolution Kinetics on Mg17Al12 Intermetallic in Mg-Al Alloys, Journal of Magnesium and Alloys, 10(9) 2421-2432 (2022).

2. R. Beygi*, H. Pouraliakbar, K. Torabi, G. Eisaabadi B., V. Fallah, S.K. Kim, R.Shi, L.F.M.da Silva, The inhibitory effect of stir zone liquefaction and eutectic-phase formation on the growth of γ/β intermetallics during dissimilar FSW of Al/Mg alloys, Journal of Manufacturing Processes, 70 152-162  (2021).

3. D. Zhao, R. Shi, P. Evans, A. Luo, K. Y Xie*, On the exceptionally high ductility of Mg–2Zn-0.3 Ca-0.2 Ce-0.1 Mn alloy, Materials Science and Engineering: A, 819 141484 (2021).

4. R. Shi, J. Miao, T. Aveya, A. Luo*, A new magnesium sheet alloy with high tensile properties and room-temperature formability, Scientific Reports, 10 10044 (2020).

5.  R. Shi*, Applications of CALPHAD (CALculation of PHAse Diagram) modeling in organic orientationally disordered phase change materials for thermal energy storage, Thermochimica Acta, 683 178461 (2020).

6. C. Su, D. Li*, J. Wang, R. Shi, A. Luo, X. Zeng*, Z. Lin, C. Jin, Enhanced ductility in high-pressure die casting Mg-4Ce-xAl-0.5Mn alloys via modifying second phase, Materials Science and Engineering A, 773 138870 (2020).

7. R. Shi, Z. Zhu, A. Luo*, Assessing phase equilibria and atomic mobility of intermetallic compounds in aluminum-magnesium alloy system, Journal of Alloys and Compounds, 825 153962 (2020).

8. Z. Zhu, R. Shi, A. D. Klarner, A. Luo*, Y. Chen, Predicting and controlling interfacial microstructure of magnesium/ aluminum bimetallic structures for improved interfacial bonding, Journal of Magnesium and Alloys, 8(3) 578-586 (2020).

9. R. Shi, J. Miao, A. Luo*, A new magnesium sheet alloy and its multi-stage homogenization for simultaneously improved ductility and strength at room temperature, Scripta Materialia, 171 92–97 (2019).

10. R. Shi, T. Avey, A. Luo*, A CALPHAD (CALculation of PHAse Diagrams)-based viscosity model for Al-Ni-Fe-Co melt system, Journal of molecular liquids, 291 111271  (2019).

11.  R. Shi, J. Meier, and A. Luo*, Controlling Particle/Metal Interactions in Metal Matrix Composites During Solidification: The Role of Melt Viscosity and Cooling Rate, Metallurgical and Materials Transaction A, 50(8) 3736-3747 (2019).

12.  R. Shi *, D. Chandra*, W. M. Chien, J. Wang, High-throughput thermodynamic computation and experimental study of solid-state phase transitions in organic multicomponent orientationally disordered phase change materials for thermal energy storage, CALPHAD, 64 66-77 (2019).

13. R. Shi, A. Luo*, Applications of CALPHAD modeling and databases in advanced lightweight metallic materials, CALPHAD, 62 1-17 (2018).

14. R. Shi, D. Chandra*, A. Mishra, A. Talekar, M. Tirumala, D. J. Nelson, Thermodynamic reassessment of the novel solid-state thermal energy storage materials: Ternary polyalcohol and amine system pentaglycerine-tris(hydroxymethyl)-amino-methane-neopentylglycol (PG-TRIS-NPG), CALPHAD, 59 61-75 (2017).

15.  R. Shi, I. Gantan, D. Chandra*, WM. Chien, A. Talekar, A. Mishra, J.J. Wang, M. Tirumala, D. J. Nelson, Thermodynamic assessment of binary systems Tris(hydroxymethyl)aminomethane-Pentaglycerine (TRIS-PG) and 2-amino-2-methyl-1,3-propanediol-Pentaglycerine (AMPL-PG) phase diagrams, CALPHAD, 52 264-273 (2016).

16.  H. Singh, A. Talekar, WM. Chien, R. Shi, D. Chandra*, A. Mishra, M. Tirumala, D. J. Nelson, Continuous solid-state phase transitions in energy storage materials with orientational disorder–Computational and experimental approach, Energy, 91 334- 349 (2015).