李泳 - 东南大学 - 土木工程学院

个人简介

李泳民族：汉族专业：工程力学、固体力学学历：博士  个人简介2018.04至今担任东南大学土木工程学院力学系讲师。1991年出生于福建福州，2012年获得同济大学工程力学专业学士学位后，直接攻读博士，并于2017.03获得同济大学力学（一级学科）博士学位，2015-2016年于University of Kentucky交流访问。承担课程1. 工程分析软件（本科生32学时，春季）2. 理论力学（本科生56学时，秋季）主持科研项目：1. 国家自然科学基金青年项目，快速锂化过程中考虑自由体积变化的非晶硅粘塑性力化耦合模型研究，2020.01-2022.12，主持2. 国家重点研发计划，结构群感知与大数据灾害评价技术，2018.07-2021.06，子课题主持3. 东南大学基本科研业务费-高水平论文项目，力学化学耦合本构关系研究，2018.03-2019.03，主持4. 东南大学基本科研业务费-高水平论文项目，力学化学耦合本构关系的深入研究，2019.03-2020.03，主持论文发表：以第一作者或合作者身份在Int. J. Plast.，J.Power Sources，Int. J. Solids Struct.，J.Electrochem.Soc.，J. Phys. D Appl. Phys.，J. Appl.Phys.和Solid State Ionics等国际知名力学、应用物理和电化学刊物上发表学术论文十余篇。多次参加国际会议InternationalConference on Plasticity,Damage & Fracture并做口头报告。

近期论文

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Y. Li, J. Zhang, K. Zhang, B. Zheng, F. Yang. A defect-based viscoplastic model for large-deformed thin film electrode of lithium-ion battery [J], International Journal of Plasticity, 2019, 115:293-306.(JCR=Q1, IF=5.8)Y. Li,W. Mao,K. Zhang, F.Yang. Analysis of large-deformed electrode of lithium-ion battery: Effects of defect evolution and solid reaction [J], International Journal of Solids and Structures, 2019, 170:1-10.(JCR=Q2,IF=2.787) Y. Li, W. Mao, K. Zhang, Y. Jia, F. Yang. Rate-dependent plastic buckling of a core-shell wire. Journal of Physics D: applied physics,2019, 52: 43. (JCR=Q2, IF=2.578)Y. Li, K. Zhang, B. Zheng, F. Yang. Effect of local velocity on diffusion-induced stress in large-deformation electrodes of lithium-ion batteries[J], Journal of Power Sources, 2016, 319: 168-177.(JCR=Q1, IF=6.395)Y. Li, K. Zhang, B. Zheng, F. Yang. Effect of local deformation on the coupling between diffusion and stress in lithium-ion battery[J]. International Journal of Solids and Structures, 2016, 87: 81-89.(JCR=Q2, IF=2.787)Y. Li, K. Zhang, B. Zheng. Stress Analysis in Spherical Composition-Gradient Electrodes of Lithium-Ion Battery[J], Journal of the Electrochemical Society, 162 (2015) A223-A228.(JCR=Q2, IF=3.259)Y. Li, K. Zhang, B. Zheng, X. Zhang, and Q. Wang. Effects of reversible chemical reaction on Li diffusion and stresses in spherical composition-gradient electrodes[J], Journal of Applied Physics 117, 245103 (2015).(JCR=Q3, IF=2.068)Y. Li, K. Zhang, B. Zheng. Interaction between diffusion and stresses in composition-gradient electrodes[J]. Solid State Ionics, 2015, 283: 103-108.(JCR=Q2, IF=2.354)Y. Li, K. Zhang, B. Zheng, F. Yang, Shear-lag model of diffusion-induced buckling of core–shell nanowires. Journal of Physics D: Applied Physics, 2016, Vol. 49 (28): 285602.(JCR=Q2, IF=2.578)KZhang, Li Y, Zheng B, et al. Large deformation analysis of diffusion-induced buckling of nanowires in lithium-ion batteries[J]. International Journal of Solids and Structures, 2017, 108: 230-243. K. Zhang,Y. Li, B. Zheng. Effects of concentration-dependent elastic modulus on Li-ions diffusion and diffusion-induced stresses in spherical composition-gradient electrodes[J]. Journal of Applied Physics, 2015, 118(10): 105102.K.Zhang, Y. Li, Zheng B. Influence of Maximum Lithium Ion Concentration in Composition-Gradient Electrodes on Diffusion-Induced Stresses and Electrochemical Performances[J]. Journal of The Electrochemical Society, 2015, 162(9): A1873-A1878.K. Zhang, Y. Li, B. Zheng. Modeling of diffusion-induced stresses of spherical composition-gradient electrodes in lithium-ion batteries, The European Physical Journal Applied Physics[J], 70 (2015) 10404.B. Yang, B Zheng, Hu X, K. Zhang,Y. Li, P.He, Z. Yue. Atomistic simulation of nanoindentation on incipient plasticity and dislocation evolution in γ/γ′ phase with interface and void[J]. Computational Materials Science, 2016, 114: 172-177.Y. Peng, K. Zhang, B. Zheng, Y. Li. Stress analysis of a cylindrical composition-gradient electrode of lithium-ion battery in generalized plane strain condition [J]. Acta Physica Sinica, 2016, 65(10): 100201-100201.