李泳

教師介紹

教師姓名

李泳

職務職稱

副教授

研究方向

多物理場耦合及新能源器件力學行為研究

基於深度學習的力學問題研究

通用有限元分析軟件中復雜問題求解

聯系電話

E-mail

yongli@sspu.edu.cn

通訊地址

上海浦東金海路2360號29樓411室

個人簡介

2012年於同濟大學航空航天與力學沐鸣2工程力學專業獲學士學位🧑‍🦼‍➡️，同年直博（保送）同濟大學力學專業攻讀博士學位，並於2017年3月畢業獲得工學博士學位；2015年-2016年於University of Kentucky的Fuqian Yang教授課題組進行交流訪問🦸🏻；2018年4月加入東南大學擔任講師🦎、碩士生導師；2023年加入沐鸣2娱乐工作，擔任副教授💂‍♂️。

縱向課題主要研究方向是多物理場耦合及新能源器件力學行為研究，近年來結合前沿熱點研究基於深度學習的力學問題；橫向課題主要方向是通用有限元分析軟件中復雜問題求解，與多家軍工及科研所保持長期合作。任中國力學學會會員👂、上海市力學學會會員。先後主持完成國家自然科學基金青年項目👨🏽‍🔧、國家重點研發計劃子課題🍷、教育部產學研協同育人項目🌇、教育部中央高校基本科研業務費專項資金。另外以課題骨幹或項目骨幹身份參與多項國家自然科學基金和國家重點研發計劃🤏🏿。以第一作者或合作者身份在Int. J. Plast. (中科院一區TOP)，Mater. Sci. Eng. A (中科院一區TOP), Electrochem. Acta, J. Power Sources，Int. J. Solids Struct.，Phys. Chem. Chem. Phys., Energy Storge Mater., J. Electrochem. Soc.，J. Phys. D Appl. Phys.，J. Appl. Phys.和Solid State Ionics等國際知名力學、應用物理和電化學刊物上發表SCI學術論文36篇（其中一作/通訊21篇），學術專著章節1章🐈‍⬛。兩次受Int. J. Plast.（中科院一區Top期刊）主編Khan邀請在塑性力學頂級會議International Conference on Plasticity, Damage & Fracture上做口頭報告。擔任Acta Mech., Int. J. Mech. Sci., Energy Storge Mater.審稿人。獲兩項省部級授課競賽獎勵、長江都市獎教金、東南大學第十六屆吾愛吾師“院系最受歡迎教師”、東南大學授課競賽三等獎、上海市力學學會優秀學生獎一等獎。

谷歌學術主頁：

https://scholar.google.com/citations?hl=zh-CN&user=BRF2GcQAAAAJ

註🦸‍♀️：歡迎對機械🤵🏻、力學仿真計算（有限元分析）、深度學習和計算機相關專業感興趣的同學報考研究生，每年擬招收1-3名碩士研究生🤞🏽。

主要論文、專利及著作情況

論文：

lLi, Y., Zhang, K.*, Pan, Y., & Yang, F*. (2023). Anisotropic behavior in the lithiation of a silicon nanopillar. Journal of Energy Storage, 57, 106271.

lLi, Y., Zhang, K.*, & Yang, F*. (2022). Effects of stress-assisted migration on potentiostatic intermittent titration technique (PITT) in spherical particles. Electrochimica Acta, 425, 140732.

lLi, Y., Zhang, K.*, & Yang, F*. (2022). Generalized Theory for DISes in a Large Deformed Solid. International Journal of Applied Mechanics, 14(4), 2250024.

lLi, Y., & Yang, F*. (2022). Numerical calculation of lithiation-induced stress in a spherical electrode: Effect of lithiation-induced structural damage. Materials Science and Engineering: A, 839, 142873.（中科院一區）

lLi, Y., Zhang, Q., Zhang, K., & Yang, F*. (2020). Coupling effects of self-limiting lithiation, reaction front evolution and free volume evolution on chemical stress in amorphous wire-based electrodes. Journal of Power Sources, 457, 228016.（中科院一區）

lLi, Y., Mao, W., Zhang, Q., Zhang, K., & Yang, F*. (2020). A free volume-based viscoplastic model for amorphous silicon electrode of lithium-ion battery. Journal of the Electrochemical Society, 167(4), 040518.

lLi, Y., Mao, W., Zhang, K., & Yang, F*. (2019). Analysis of large-deformed electrode of lithium-ion battery: Effects of defect evolution and solid reaction. International Journal of Solids and Structures, 170, 1-10.

lLi, Y., Mao, W., Zhang, K., Jia, Y. F., & Yang, F*. (2019). Rate-dependent plastic buckling of a core–shell wire. Journal of Physics D: Applied Physics, 52(43), 435502.

lLi, Y., Zhang, J.*, Zhang, K., Zheng, B., & Yang, F*. (2019). A defect-based viscoplastic model for large-deformed thin film electrode of lithium-ion battery. International Journal of Plasticity, 115, 293-306.（中科院一區）

lLi, Y., Zhang, K., Zheng, B.*, & Yang, F*. (2016). Effect of local velocity on diffusion-induced stress in large-deformation electrodes of lithium-ion batteries. Journal of Power Sources, 319, 168-177.（中科院一區）

lLi, Y., Zhang, K., Zheng, B.*, & Yang, F*. (2016). Shear-lag model of diffusion-induced buckling of core–shell nanowires. Journal of Physics D: Applied Physics, 49(28), 285602.

lLi, Y., Zhang, K., Zheng, B.*, & Yang, F*. (2016). Effect of local deformation on the coupling between diffusion and stress in lithium-ion battery. International Journal of Solids and Structures, 87, 81-89.

lLi, Y., Zhang, K., & Zheng, B*. (2015). Interaction between diffusion and stresses in composition-gradient electrodes. Solid State Ionics, 283, 103-108.

lLi, Y., Zhang, K., Zheng, B.*, Zhang, X., & Wang, Q. (2015). Effects of reversible chemical reaction on Li diffusion and stresses in spherical composition-gradient electrodes. Journal of Applied Physics, 117(24), 245103.

lLi, Y., Zhang, K., & Zheng, B*. (2014). Stress analysis in spherical composition-gradient electrodes of lithium-ion battery. Journal of the Electrochemical Society, 162(1), A223.

lXue, Y.,Li, Y.*, Zhang, K.*, & Yang, F*. (2022). A physics-inspired neural network to solve partial differential equations–application in diffusion-induced stress. Physical Chemistry Chemical Physics, 24(13), 7937-7949.（中科院二區TOP）

lHuang, H.,Li, Y.*, Xue, Y., Zhang, K.*, & Yang, F*. (2023). A deep learning approach for solving diffusion-induced stress in large-deformed thin film electrodes. Journal of Energy Storage, 63, 107037.

lYang, F.*,Li, Y.*, & Zhang, K. (2023). A multiplicative finite strain deformation for diffusion-induced stress: An incremental approach. International Journal of Engineering Science, 187, 103841.（中科院一區）

lZhang, K., Zhou, J., Tian, T., Kai, Y.,Li, Y.*, Zheng, B.*, & Yang, F*. (2023). Cycling-induced damage of silicon-based lithium-ion batteries: Modeling and experimental validation. International Journal of Fatigue, 107660.（中科院一區）

lZhang, K., Zhou, J., Yang, F., Zhang, Y., Pan, Y., Zheng, B.*,Li, Y.*, Yang, F*. (2022). A stress-control charging method with multi-stage currents for silicon-based lithium-ion batteries: Theoretical analysis and experimental validation. Journal of Energy Storage, 56, 105985.

lZhang, K.,Li, Y.*, Zheng, B., & Yang, F*. (2022). A free volume-based analytical model for plastic flow in thin-walled silicon structures of lithium-ion batteries. Acta Mechanica, 233(2), 561-578.

lYang, F. Q.,Li, Y., Zheng, B. L., & Zhang, K. (2018). Interaction between stress and diffusion in lithium-ion batteries: Analysis of diffusion-induced buckling of nanowires. Handbook of Mechanics and Materials, 1-20.（學術專著）

lZhang, K., Hüger, E.*,Li, Y., Schmidt, H., & Yang, F*. (2023). Review and Stress Analysis on the Lithiation Onset of Amorphous Silicon Films. Batteries, 9(2), 105.（Invited Paper）

lZhang, K., Zhang, Y., Zhou, J.,Li, Y., Zheng, B.*, Yang, F.*, & Kai, Y. (2020). A stress-based charging protocol for silicon anode in lithium-ion battery: Theoretical and experimental studies. Journal of Energy Storage, 32, 101765.

lZhang, K.,Li, Y., Wang, F., Zheng, B.*, Yang, F.*, & Lu, D. (2020). An analytical model for lithiation-induced concurrent plastic flow and phase transformation in a cylindrical silicon electrode. International Journal of Solids and Structures, 202, 87-98.

lZhang, K., Zheng, B.*, Yang, F.*, &Li, Y. (2020). Analysis of a cylindrical silicon electrode with a pre-existing crack: Path-independent Ĵ-integral. International Journal of Mechanical Sciences, 177, 105602.

lZhang, K., Chen, J.,Li, Y., Liu, D.*, Zheng, B.*, & Kai, Y. (2020). Rate-dependent lithiation-induced failure modes of a cylindrical core-shell electrode. Results in Physics, 16, 103018.

lZhang, K.,Li, Y., Wang, F., Zheng, B.*, & Yang, F*. (2019). Stress effect on self-limiting lithiation in silicon-nanowire electrode. Applied Physics Express, 12(4), 045004.

lZhang, K.,Li, Y., Wang, F., Zheng, B.*, & Yang, F*. (2019). A phase-field study of the effect of local deformation velocity on lithiation-induced stress in wire-like structures. Journal of Physics D: Applied Physics, 52(14), 145501.

lZhang, K.,Li, Y., Wu, J., Zheng, B.*, & Yang, F*. (2018). Lithiation-induced buckling of wire-based electrodes in lithium-ion batteries: a phase-field model coupled with large deformation. International Journal of Solids and Structures, 144, 289-300.

lYing-Zha, P.,Yong, L., Bai-Lin, Z.*, Kai, Z., & Yong-Chuan, X. (2018). Influence of local velocity on diffusion-induced stress and axial reaction force in a hollow cylindrical electrode of lithium-ion batteries with cosidering expasion rate of medium. Acta Physica Sinica, 67(7).

lZhang, K.,Li, Y., Zheng, B., Wu, G., Wu, J.*, & Yang, F*. (2017). Large deformation analysis of diffusion-induced buckling of nanowires in lithium-ion batteries. International Journal of Solids and Structures, 108, 230-243.

lYing-Zha, P., Kai, Z., Bai-Lin, Z.*, &Yong, L. (2016). Stress analysis of a cylindrical composition-gradient electrode of lithium-ion battery in generalized plane strain condition. Acta Physica Sinica, 65(10).

lYang, B., Zheng, B.*, Hu, X., Zhang, K.,Li, Y., He, P., & Yue, Z. (2016). Atomistic simulation of nanoindentation on incipient plasticity and dislocation evolution inγ/γ′phase with interface and void. Computational Materials Science, 114, 172-177.

lZhang, K.,Li, Y., & Zheng, B*. (2015). Effects of concentration-dependent elastic modulus on Li-ions diffusion and diffusion-induced stresses in spherical composition-gradient electrodes. Journal of Applied Physics, 118(10), 105102.

lZhang, K.,Li, Y., & Zheng, B*. (2015). Influence of maximum lithium ion concentration in composition-gradient electrodes on diffusion-induced stresses and electrochemical performances. Journal of The Electrochemical Society, 162(9), A1873.

lZhang, K.,Li, Y., & Zheng, B*. (2015). Modeling of diffusion-induced stresses of spherical composition-gradient electrodes in lithium-ion batteries. The European Physical Journal Applied Physics, 70(1), 10404.

主要科研項目

1.國家自然科學基金青年項目，“快速鋰化過程中考慮自由體積變化的非晶矽粘塑性力化耦合模型研究”，2020.01-2022.12，主持

2.國家重點研發計劃子課題🧑‍🚀，“結構群感知與大數據災害評價技術”⛳️，2018.07-2021.06🧛🏽，主持

3.教育部產學研協同育人項目，“基於有限元仿真的新工科建設研究與實踐”，2021.12-2022.12，主持

4.中央高校基本科研業務項目，“力學化學耦合本構關系研究”📪，2018.03-2019.03，主持

5.中央高校基本科研業務項目，“力學化學耦合本構關系的深入研究”🥋，2019.03-2020.03🧊，主持

6.國家重點研發計劃，“自然災害損傷水工建築物水下應急檢測與處置關鍵技術裝備”🎟，2020.11-2024.04，參與（課題骨幹）

7.國家自然科學基金面上項目，“功能梯度納米膜基結構的接觸力學性能分析與調控機製”，2021.01-2024.12🧑🏼‍🏫，參與

榮譽及獲獎

1.長江都市獎教金🚲，2022

2.東南大學授課競賽三等獎，2020

3.獲首屆長三角高校工科基礎力學青年教師講課競賽（本科）一等獎，2020

4.第十屆江蘇省工科基礎力學青年教師講課競賽（本科）一等獎👀，2020

5.第十六屆東南大學吾愛吾師“院系最受歡迎教師”，2020

6.上海市力學學會優秀學生一等獎, 2016

7.國家獎學金，2015