安徽寿县人，博士，8688体育网工程力学系教授，博士生导师。江苏省力学学会常务理理事、副秘书长、计算力学专委会副主任委员、南方计算力学委员会委员、入选江苏省“六大人才高峰”高层次人才。1994年毕业于兰州大学力学专业，获工学学士学位；1997年6月获兰州大学理学硕士学位；2005年9月获东南大学工学博士学位。1997年起在东南大学8688体育网工作至今，2000年4月-2001年4月和2004年暑期在香港理工大学做访问学者。研究方向包括工程中关键力学问题建模与分析、多孔介质力学、结构耐久性、安全性监测与智慧传感，等。主持过国家自然科学基金、国家重点基础研究项目子课题，重大科技攻关项目数十项。发表学术论文120余篇，获江苏省科技进步奖、江苏省优秀力学教师、东南大学优秀青年教师、全国徐芝纶力学优秀教师，等奖励。主讲本科生、硕士生、博士生课程9门。参修的《材料力学》教材获首届国家优秀教材二等奖。

学术兼职

·      江苏省力学学会常务理事

·      江苏省力学学会副秘书长

·      江苏省计算力学专业委员会副主任委员

·      南方计算力学委员会委员

主讲课程

·     材料力学（本科生课程）

·     弹性力学（本科生课程）

·     理论力学（本科生课程）

·     工程力学（本科生课程）

·     结构分析软件（本科生课程）

·     弹塑性力学（东南大学研究生精品课程、在线开放课程（MOOC）负责人）

·     弹性力学（东南大学研究生精品课程、江苏省优秀研究生课程）

·     有限元程序设计（研究生课程）

·     非线性有限元（博士生课程）

纵向科研项目

·     载荷与环境作用下氯离子侵蚀与混凝土开裂过程耦合分析方法及应用，国家基金面上项目（主持）

·     面向结构状态评估的大跨桥梁结构多尺度模型修正理论及应用，国家基金青年项目（主持）

·     环境友好现代混凝土的基础研究-课题二-现代混凝土微结构与本构的关系，国家重点基础研究项目(973计划)【重大科学研究计划】子课题（主持）

·     面向目标混凝土设计地多尺度本构理论及应用，江苏省自然科学基金（共同主持）

·     考虑非均质特征界面的混凝土材料破坏机理精细化分析及应用，国家基金面上项目（第一参与人）

·     面向结构损伤预后的结构多尺度力学研究及其应用，国家基金面上项目（第一参与人）

·     重大工程结构损伤破坏非线性效应的多尺度模拟与分析，国家基金重大研究计划（第二参与人）

·     现代混凝土材料微结构效应研究，教育部博士点基金（第一参与人）

·     结构劣化的时空多尺度模拟和多因素同步分析方法及其应用，国家基金面上项目（第三参与人）

·     桥基渗流软化的无网格非线性边界元分析，江苏省自然科学基金（第二参与人）

·     大跨桥梁结构以损伤评估为目标的多尺度模型，教育部科技基金（第二参与人）

·     大跨桥梁结构以损伤评估为目标的多尺度模型修正及其应用，江苏省自然科学基金（第一参与人）

·     大跨结构多尺度损伤模拟与失效行为仿真分析，国家基金面上项目（第一参与人）

·     基于健康监测的大型钢桥梁疲劳损伤，国家基金面上项目（第一参与人）

重大工程项目

·     国和一号示范工程穹顶及SC索力监测装置、调整装置（主持）

·     *******系统（主持）

·    *******样机研制（主持）

·    *******防龙卷风结构设计（主持）

·     大型钢结构吊装索力监测及调整技术研究（主持）

·     浙江三澳核电厂钢衬里模块化吊装工装设计及技术服务（主持）

·     国核压水堆示范工程核岛土建施工项目钢穹顶运输工装设计与技术服务（第一参与人）

·     冲击对封堵损伤特征的影响规律及仿真分析研究（主持）

·     FY-4微波星力学试验用3D打印490N发动机支架力学性能复核复算（第一参与人）

·     技改线路中导、地线力学性能检测与分析（主持）

·     CAP1400核电站SC结构大直径环形双层柔性结构吊装技术研究（主持）

·     台山核电站钢格栅结构抗龙卷风性能技术分析（主持）

·     南京总医院动力中心管道移位及破坏机理力学分析（第一参与人）

·     山东荣成核电项目CR10模块吊装过程索力监测（主持）

·     荣成国核压水堆示范工程CR10模块安装方案结构分析（主持）

·     苏通大桥结构健康监测状态评估预警系统研发（参与）

·     20MW锚链拉力试验机结构静、动力性能分析（主持）

国内外学术刊物发表论文100余篇。参编研究生教材《工程弹性力学》，参与修订“十一五”规划教材《材料力学》（第五版，孙训芳等著）、《材料力学》（第六版，孙训芳等著，首届国家优秀教材二等奖）。

近期代表性论文：

1. Yujiao Liu, Wanjin Li, Jinwei Guan, Xin Zhou, Li Guo*. Chloride–sulfate coupled peridynamic model incorporating calcium leaching to simulate reaction–diffusion-damage in compressed concrete, Construction and Building Materials 495 (2025) 143506 (IF 8.0 )

2. Jinwei Guan, Yalin Li, Yilong Guo, Wanjin Li, Li Guo*.Phase-driven fracture mechanics: Modeling spontaneous volume changes via hybrid PD-SPH in cryogenic damage, International Communications in Heat and Mass Transfer 169 (2025) 109695 (IF 6.4 )

3. Yujiao Liu, Wanjin Li, Jinwei Guan, Xin Zhou, Li Guo*. Multi-field FEM-PD model for non-uniform corrosion and damage evolution in reinforced concrete under chloride-sulfate attack, Engineering Analysis with Boundary Elements 179 (2025) 106386  (IF 4.1 )

4. Yalin Li, Jinwei Guan, Li Guo*. Peridynamic-driven feature-enhanced Vision Transformer for predicting defects and heterogeneous materials locations: Applications of deep learning in inverse problems, Engineering Applications of Artificial Intelligence 151 (2025) 110677 (IF 8 )

5. Jinwei Guan, Yalin Li, Li Guo*. A novel exploration in anisotropic thermal fracture analysis: 3D thermal–mechanical coupled FEM–PD model, International Communications in Heat and Mass Transfer 163 (2025) 108708 (IF 6.4 )

6. Jinwei Guan, Ningning Dong, Guobing Ying, Li Guo*. An adaptive multi¬–scale FEM–PD model for failure analysis of materials with interfaces, Theoretical and Applied Fracture Mechanics (2025) Volume 136, 104840 (IF 5.6 )
   

7. Jinwei Guan, Li Guo*. An innovative bond–based peridynamic model for fracture analysis of orthotropic materials, European Journal of Mechanics / A Solids (2024) 105414 (IF 4.4 )

8. Yujiao Liu, Wanjin Li, Jinwei Guan, Xin Zhou, Li Guo*. Improved fully coupled peridynamic model for analyzing the compressive behaviour of concrete under sulfate attack, Ocean Engineering 310 (2024) 118790 (IF 5.5 )

9. Jinwei Guan, Guobing Ying, Lu Liu, Li Guo*. A thermal–mechanical coupled bond–based peridynamic model for fracture of anisotropic materials, International Journal of Heat and Mass Transfer 231 (2024) 125848 (IF 5.2 )
   

10. Jinwei Guan, Li Guo*. Essential insights into particle interfaces: From arbitrary switching FEM–PD coupling to effective mitigating surface effects, Engineering Analysis with Boundary Elements Engineering Analysis with Boundary Elements 163 (2024) 482–504  (IF 3.3 )

11. Zhijian Wu, Li Guo*. A phase field-immersed boundary-lattice Boltzmann coupling method for fluid-structure interaction analysis, Ocean Engineering 301 (2024) 117564  (IF 5 )

12. Jinwei Guan, Li Guo*. A unified bond–based peridynamic model without limitation of Poisson’s ratio, Applied Mathematical Modelling (2024) 128:609-629 (IF 5.0 )

13. Yujiao Liu, Wanjin Li, Jinwei Guan, Xin Zhou, Li Guo*. Fully coupled peridynamic model for analyzing the chemo-diffusion-mechanical behavior of sulfate attack in concrete, Construction and Building Materials (2023) 133874 (IF 7.4 )

14. Jiming Zhang, Li Guo*, Wenshe He, and Wanjin Li. Mathematical modeling and analysis of the freezing process of drainage channel in cold region tunnels, Journal of Cold Regions Engineering (2024), 38(2): 04024007  (IF 2 )

15. Jiming Zhang, Li Guo*. A fully coupled thermo-mechanical peridynamic model for cracking analysis of frozen rocks, Computers and Geotechnics (2023) (IF 5.3 )

16. Zhijian Wu, Li Guo*. A new approach to aircraft ditching analysis by coupling free surface lattice Boltzmann and immersed boundary method incorporating surface tension effects, Ocean Engineering 286 (2023) 115559  (IF 5 )

17. Yujiao Liu, Wanjin Li, Xin Zhou, Li Guo*. Multi-scale peridynamic investigation of chloride penetration in concrete under drying-wetting cycles, Engineering Analysis with Boundary Elements 155 (2023) 779–788 (IF 3.3 )

18. Jinwei Guan, Wanjin Li, Xiaofeng Yan, Li Guo*. An incremental bond–based peridynamic method for elastoplastic problems, International Journal for Numerical Methods in Engineering, (2023) 7292 (IF 3.021 )

19.  Xiaofeng Yan, Wanjin Li, Rui Zhang, Li Guo*. A three-dimensional meso-scale approach to the fracture analysis of ultrahigh performance concrete based on micropolar peridynamics, Construction and Building Materials, 382 (2023) 131303 (IF 7.693 )

20.  Jinwei Guan, Xiaofeng Yan, Li Guo*. An adaptive contact model involving friction based on peridynamics, European Journal of Mechanics / A Solids, 100 (2023) 104966 (IF 4.873 )

21. Jiming Zhang, Li Guo*. Peridynamic investigation on crack propagation mechanism of rock mass during excavation of tunnel group in cold regions, Mechanics of Advanced Materials and Structures, (2023) 2169791. (IF 3.338 )

22. Rui Zhang, Xiaofeng Yan, Li Guo*. Deep learning-based classification of damage-induced acoustic emission signals in UHPC, Construction and Building Materials, 356(2022) 129285 (IF 7.693 )

23. Zhijian Wu, Li Guo* Accuracy Improvement of Immersed Boundary-Lattice Boltzmann and Finite Element Method by Iterative Velocity Correction, Physics of Fluids, 34(2022) 103102; (IF 4.98 )

24. Xiaofeng Yan, Jinwei Guan, Kang Wei, Rui Zhang, Li Guo*. Correction of full-field rigid body rotation and strain using a hybrid peridynamics and digital image correlation approach, Optics and Lasers in Engineering 158 (2022) 107162 (IF 5.666 )
    

25. Jiming Zhang, Li Guo*. Peridynamics simulation of shotcrete lining damage characteristics under freeze-thaw cycles in cold region tunnels, Engineering Analysis with Boundary Elements, 141 (2022) 17-35 (IF 2.964)

26. Jinwei Guan, Xiaofeng Yan, Li Guo*. An improved bond-based peridynamic model with shear bonds for eliminating rigid body rotation, Theoretical and Applied Fracture Mechanics, 119 (2022) 103369 (IF 4.017)

27. Zhijian Wu, Li Guo*, Jun Hong. Improved Staggered Algorithm for Phase-field Brittle Fracture with the Local Arc-length Method, Computer Modeling in Engineering & Sciences, (2022) 20694 (IF 1.593)

28. Rui Zhang, Xiaofeng Yan, Li Guo*. Pullout damage analysis of steel fiber with various inclination angles and interface states in UHPC through acoustic emission and microscopic observation, Journal of Building Engineering, 51 (2022) 104271  (IF 7.144)

29.  Yan X.F., Zhang R., Guo L.*. Investigation of mixed-mode fracture of UHPC using a hybrid digital image correlation and Peridynamics approach, Optics and Lasers in Engineering 151 (2022) 106918. (IF 5.666)

30.  Wanjin Li, Li Guo*. Peridynamic Investigation of Chloride Diffusion in Concrete under Typical Environmental Factors, Ocean Engineering 239 (2021) 109770. (IF 3.795)

31. Yan X.F., Guo L.*, Li W.J. Improved Timoshenko beam-based micropolar peridynamic method incorporating particle geometry. Engineering Fracture Mechanics, 254 (2021) 107909. (IF 4.406)

32.  Zhang, R., Guo, L.*, Li, W. Combining Thermal Loading System with Acoustic Emission Technology to Acquire the Complete Stress-Deformation Response of Plain Concrete in Direct Tension. Materials 2021, 14, 602. (IF 3.623)

33. Li Guo*, Xiaoyu Zhang, Wanjin Li, Xin Zhou. Multi-scale peridynamic formulations for chloride diffusion in concrete, Engineering Analysis with Boundary Elements 120 (2020) 107–117. (IF 2.964)

34. Wanjin Li, Li Guo*. A Mechanical-diffusive Peridynamics Coupling Model for Meso-scale Simulation of Chloride Penetration in Concrete under Loadings, Construction & Building Materials, 2020 241:118021 (IF 6.141)

35. Wanjin Li, Li Guo*. Dual-Horizon Peridynamics Analysis of Debonding Failure in FRP-to-Concrete Bonded Joints. International Journal of Concrete Structures and Materials, 2019, 13(1)13-26. (IF 2.483)

36. Wanjin Li, Li Guo*. Meso-fracture simulation of cracking process in concrete incorporating three-phase characteristics by peridynamic method. Construction and Building Materials, 161 (2018) 665–675. (IF 6.141)

37. Li Guo*, Xiaoming Guo, Jun Hong, Ying Wang. Constitutive relation of concrete containing meso-structural characteristics. Results in Physics 7 (2017) 1155–1160. (IF 4.476)

38. Li Guo*, XiaoMing Guo and ChangWen Mi. Multi-scale finite element analysis of chloride diffusion in concrete incorporating paste/aggregate ITZs. SCIENCE CHINA Physics, Mechanics & Astronomy, 55(9):1696-1702, 2012. (IF 1.169)

39. Li Guo*, Tang Chen, Xiao-Wei Gao. Transient meshless boundary element method for prediction of chloride diffusion in concrete with time dependent nonlinear coefficients. Engineering Analysis with Boundary Elements, 36(2):104-111, 2012. (IF 2.964)