教育经历：

2008.9 - 2014.5, 俄亥俄州立大学, 博士(材料学)

2004.9 – 2008.7, 厦门大学, 硕士(材料学)

2006.11 – 2007. 5, 俄亥俄州立大学，访问学生

2000.9 – 2004.6, 福州大学, 学士(材料学)

研究与工作经历：

2021.9 - 至今，哈尔滨工业大学(深圳)，教授，

2017.7 – 2021.8, 劳伦斯·利弗莫尔国家实验室，研究员

2014.6 – 2017.6, 俄亥俄州立大学, 助理研究员

专业资质与学术兼职：

Journal of Materials Informatics 青年编委

TMS会刊JOM杂志顾问

担任美国矿物、金属与材料学会TMS会刊JOM相变(2021年六月卷)以及钛合金增材制造专辑（2021年八月卷）客座编辑。

担任包括Acta Materialia, Additive Manufacturing, CALPHAD, Computational Materials Science, JOM (Journal of The Minerals, Metals & Materials Society), Journal of Alloys and Compounds, Journal of the European Ceramic Society, Journal of Materials Science, Journal of Materials Science and Technology, Journal of Nuclear Materials, Journal of Phase Equilibrium and Diffusion, Materials & Design, Materials Letters, Metallurgical and Materials Transactions A,Modeling and Simulation in Materials Science and Engineering, NPJ Computational Materials, Philosophical Magazine A, Philosophical Magazine Letters, Scripta Materialia 等国际期刊的特约审稿人。

科研成果及奖励：

2021 LLNL Publication Award

2015第七届国际固态相变 大会的 Aaronson 青年科学家Final list(比例约为5：130)

2013 Gordon Research Conference-Physical Metallurgy Best Poster Award (比例约为4：100)

论文及著作：

· ORCID: 0000-0002-5007-4249

· Google Scholar

主要代表性论文(*通讯作者，#共同一作)

Peer-Reviewed Journal Articles:

1. R. Shi*, M. Wood, T. W. Heo, B. C. Wood, J. Ye, “Towards understanding particle rigid-body motion during solid-state sintering”, Journal of the European Ceramic Society, 41(2021) 211-231. [doi]

2. D. Choudhuri, R. Shi^#, Y. Wang, R. Banerjee, D. Banerjee, “Alpha Phase Growth in Composition and Temperature Space in Titanium Alloys”, Philosophical Magazine Letters, In press.

3. T. Tumkur, T. Voisin, R. Shi^#, P. Depond, S. A. Khairallah, M. Mattews, “Non-diffractive shaping for enhanced optothermal control in metal additive manufacturing”, Science Advances, 7 (2021) (Journal Cover).[doi].

4. R. Shi*, Y. Gao, Y. Zheng, “Recent advances in the design of novel -titanium alloys using integrated theory, computer simulation and advanced characterization”, Advanced Engineering Materials, 23 (2021) 2100152 .(Invited)  [doi].

5. T. W. Heo, S. A. Khairallah, R. Shi*, J. Berry, A. Perron, N. Calta, A. Martin, B, Nathan, J. D. Roehling, T. T. Roehling, J. L. Fattebert, A. Anderson, A., Nichols, S. Wopschall, W, King, J. Mckeown, M. Mattews, “A mesoscopic digital twin that bridges length and time scales for control of additively manufactured metal microstructures”, Journal of Physics: Materials, 4(2021) 034012. [doi]

6. T. Lou, S. Wang, R. Shi, T. Zhang, S. Chiovoloni, J. Lu, W. Chen, M. Worsely, B. Wood, S. E. Baker, E. B. Duoss, R. Wu, C. Zhu, Y. Li, “Periodic Porous 3D Electrodes Mitigate Gas Bubble Traffic during Alkaline Water Electrolysis at High Current Densities”, Advanced Energy Materials, 10 (2020) 2002955. (Journal Cover) [doi].

7. R. Shi*, T.W. Heo, B. Wood, Y. Wang, “Critical nuclei at hetero-phase interfaces”, Acta Materialia, 200 (2020) 510-525.  [doi].

8. R. Shi*, S. Khairallah, T. Roehling, T.W. Heo, J.T. McKeown, M.J. Matthews, “Microstructural Control in Metal Laser Powder Bed Fusion Additive Manufacturing Using Laser Beam Shaping Strategy”, Acta Materialia, 184 (2020) 284-305.  [doi].

9. R. Shi*, S. Khairallah, T.W. Heo, M. Rolchigo, J.T. McKeown, M.J. Matthews, “Integrated Simulation Framework for Additively Manufactured Ti-6Al-4V: Melt Pool Dynamics, Microstructure, Solid-State Phase Transformation, and Microelastic Response”, JOM 71(10) (2019) 3640-3655.(Invited, Journal Cover) [doi]

10. R. Shi*, Y. Zheng, R. Banerjee, H.L. Fraser, Y. Wang, “-Assisted Nucleation in a Metastable Titanium Alloy”, Scripta Materialia 171 (2019) 62-66. [doi]

11. R. Shi*, D.P. McAllister, N. Zhou, A.J. Detor, R. DiDomizio, M.J. Mills, Y. Wang, “Growth Behavior of Coprecipitates in Ni-Base Superalloys”, Acta Materialia 164 (2019) 220-236. [doi]

12. R. Shi*, C. Shen, S. Dregia, Y. Wang, “Form of critical nuclei at homo-phase boundaries”, Scripta Materialia 146 (2018) 276-280. [doi]

13. H. Song, R. Shi*, Y. Wang, J.J. Hoyt, “Simulation Study of Heterogeneous Nucleation at Grain Boundaries During the Austenite-Ferrite Phase Transformation: Comparing the Classical Model with the Multi-Phase Field Nudged Elastic Band Method”, Metallurgical and Materials Transactions A 48(6) (2017) 2730-2738. (Invited) [doi]

14. R. Shi, V. Dixit, G.B. Viswanathan, H.L. Fraser, Y. Wang, “Experimental Assessment of Variant Selection Rules for Grain Boundary in Titanium Alloys”, Acta Materialia 102 (2016) 197-211. [doi]

15. D. Qiu, R. Shi, P. Zhao, D. Zhang, W. Lu, Y. Wang, “Effect of Low-Angle Grain Boundaries on Morphology and Variant Selection of Grain Boundary Allotriomorphs and Widmanstätten Side-Plates”, Acta Materialia 112 (2016) 347-360. [doi]

16. L. Nguyen, R. Shi, Y. Wang, M. De Graef, “Quantification of Rafting of Precipitates in Ni-based Superalloys”, Acta Materialia 103 (2016) 322-333. [doi]

17. R. Shi, N. Zhou, S.R. Niezgoda, Y. Wang, “Microstructure and Transformation Texture Evolution during α Precipitation in Polycrystalline Titanium Alloys – A Simulation Study”, Acta Materialia 94 (2015) 224-243. [doi]

18. D. Qiu, R. Shi, D. Zhang, W. Lu, Y. Wang, “Variant Selection by Dislocations during α Precipitation in Titanium Alloys”, Acta Materialia 88 (2015) 218-231. [doi]

19. D. Wang, R. Shi, Y. Zheng, R. Banerjee, H.L. Fraser, Y. Wang, “Integrated Computational Materials Engineering (ICME) Approach to Design of Novel Microstructures for Ti-Alloys”, JOM 66(7) (2014) 1287-1298. (Invited) [doi]

20. R. Shi, V. Dixit, H.L. Fraser, Y. Wang, “Variant Selection of Grain Boundary by Special Prior Grain Boundaries in Titanium Alloys”, Acta Materialia 75 (2014) 156-166. [doi]

21. R. Shi, C.P. Wang, D. Wheeler, X.J. Liu, Y. Wang, “Formation Mechanisms of Self-Organized Core/Shell and Core/Shell/Corona Microstructures in Liquid Droplets of Immiscible Alloys”, Acta Materialia 61(4) (2013) 1229-1243. [doi]

22. R. Shi, Y. Wang, “Variant Selection during Precipitation in Ti–6Al–4V under the Influence of Local stress – A Simulation Study”, Acta Materialia 61(16) (2013) 6006-6024. [doi]

23. R. Shi, N. Ma, Y. Wang, “Predicting Equilibrium Shape of Precipitates as Function of Coherency State”, Acta Materialia 60(10) (2012) 4172-4184. [doi]

24. R. Shi, Y. Wang, C.P. Wang, X.J. Liu, “Self-organization of Core-Shell and Core-Shell-Corona Structures in Small Liquid Droplets”, Applied Physics Letters 98(20) (2011) 204106. [doi]

Book Chapter:

1. R. Shi, D. Wang, Y. Wang, “Modeling and Simulation of Microstructure Evolution during Heat Treatment of Titanium Alloys”, in: G.E. Totten (Ed.), Heat Treating of Nonferrous Alloys, ASM International 2016, pp. 573 - 603. [doi]