个人简历

教育背景\r
2013.09 – 2017.05， 美国伊利诺伊大学香槟分校，航天工程系，博士\r
2012.01 – 2013.08， 美国伊利诺伊大学香槟分校，航天工程系，硕士\r
2007.09 – 2011.06， 北京航空航天大学，能源与动力工程学院，飞行器动力专业，学士\r
\r
工作背景\r
2019.01 –至今， 北京航空航天大学，宇航学院，副研究员，博士生导师\r
2017.08 – 2018.09， 美国布朗大学，工程学院，博士后\r
\r
主要奖励\r
伊利诺伊大学香槟分校，Stillwell Fellowship, 2012\r
伊利诺伊大学香槟分校，Alumni Advisory Board Fellowship, 2016

研究领域

可重复使用液体火箭发动机/全流量发动机\r
增材制造技术在航天高温部件中的应用\r
多尺度计算力学方法（第一性原理方法、分子动力学、有限元方法等）\r
航天部件极端条件下的破坏与失效""

近期论文

Qi Y，Jin P，Li R，et al.(2020). Dynamic reliability analysis for the reusable thrust chamber:a multi-failure modes investigation based on coupled thermal-structure analysis.Reliability Engineering & System Safety, (Accept)\r
\r
Xu J, Jin P,Li R, Wang, J, et al. (2020). Effect of coaxial injector parameters on LOX/methane engines: A numerical analysis.Acta Astronautica, 225-237.\r
\r
Han, S., Yang, X., Shi, D., Miao, G., Huang, J., &Li, R.(2020). Microstructure-sensitive modeling of competing failure mode between surface and internal nucleation in high cycle fatigue.International Journal of Plasticity,126, 102622.\r
\r
Li, R., et. al. (2018). A new subcritical nanostructure of graphene—crinkle-ruga structure andits novel properties.MRS Advances, 1-7. (MRS Spring 2018 conference invited paper)\r
\r
Mohan, S.,Li, R., & Chew, H. B. (2018).Local stress analysis of partial dislocation interactions with symmetrical-tilt grain boundaries containing E-structural units.Philosophical Magazine, 98(25), 2345-2366.\r
\r
Li, R., & Chew, H. B. (2017).Grain boundary traction signatures: Quantifying the asymmetry dislocation nucleation process under tension and compression.Journal of Mechanics and Physics of Solids, 103, 142-154.\r
\r
Li, R., & Chew, H. B. (2016).Grain boundary traction signatures: quantitative predictors of dislocation emission.Physical Review Letters, 117(8), 085502.\r
\r
Li, R., & Chew, H. B. (2015).Closed and open-ended stacking fault tetrahedra formation along the interfaces of Cu–Al nanolayered metals.Philosophical Magazine, 95(25), 2747-2763.\r
\r
Li, R., & Chew, H. B. (2015).Planar-to-wavy transition of Cu–Ag nanolayered metals: a precursor mechanism to twinning.Philosophical Magazine, 95(10), 1029-1048.\r
\r
Li, R., & Chew, H. B. (2014).Deformation twinning and plastic recovery in Cu/Ag nanolayers under uniaxial tensile straining.Philosophical Magazine Letters, 94(5), 260-268.\r
\r
Anderson, E.,Li, R., & Chew, H. B. (2014).Negative stiffness induced by shear along wavy interfaces.Journal of the Mechanics and Physics of Solids, 63, 285-297.