本科生教学: 主讲《工程力学》必修课、讲授《绿色建材与低碳建造》限选课等课程。 研究生教学: 主讲《能源基础设施》、讲授《高等钢结构》课程。人才培养: 年均招收硕士生2~3名,博士生1~2名。 科研兴趣:高抗疲劳铁基SMA的加固及减震应用;组合/复合浮式结构;海洋钢结构基础;金属增减材制造。 科研项目: 1.国家自然科学基金青年项目(52308503),高抗疲劳铁基SMA自复位支撑三水准减震机理及结构韧性设计,2024/01-2026/12,30万元,在研,主持; 2. 广东省“珠江人才计划”引进创新创业团队项目,海上风电工程技术创新团队,2025/06-2030/06,2000万元,在研,核心成员; 3. 广东省基础与应用基础研究基金自然科学基金面上项目(2025A1515010036),高抗疲劳自复位支撑-铰接混凝土框架体系减震机理与设计方法,2025/01-2027/12,10万元,在研,主持; 4. 广州市基础与应用基础研究青年科技人员类项目(2024A04J01078),基于深度强化学习的高抗疲劳铁基SMA自复位消能支撑框架设计方法,2024/04-2026/03,5万元,在研,主持; 5. 华南理工大学“双一流”建设项目科研启动基金(D6250670),100万元,在研,主持; 6. 国家重点研发计划子课题(2017YFC0703607),工业化建筑钢结构自立式消能减震墙体系,2017/07-2020/12,120.6万元,已结题,参与; 7. 国家重点研发计划子课题(2016YFC0701203),钢结构体系消能减震设计理论与方法,2016/07-2020/06,180万元,已结题,参与
代表性成果 代表性论文: X.Y. Yu, Y.W. Li*, J.X. Zhao, X.Y. Zhao. (2025) A unified low cycle fatigue model of axial-loaded buckling-restrained Fe-SMA plates in high-performance metallic dampers. Engineering Structures, 119461. (JCR1) Y.W. Li*, S.L. Zhang, J.X. Zhao, X.Y. Yu, Y.L. Ren. (2025) Experimental study on the strength of Fe-SMA to Q355 structural steel fillet welds. Journal of Constructional Steel Research, 109661. (JCR1) Y.W. Li*, S.L. Zhang, J.X. Zhao, X.Y. Yu. (2025) Experimental study on the strength of Fe-SMA to Q355 structural steel butt welded joints. Journal of Constructional Steel Research, 109277. (JCR1) J.X. Zhao, H. Qin, T. Okazaki, Y.W. Li*, C.H. Guo. (2024) Bidirectional Cyclic Loading Performance of a Prefabricated Self-Centering Metallic-Damped Steel Column Base. Journal of Structural Engineering, 04024143. (JCR1) Y.W. Li, G.Q. Li, L. Xiao*, Michael C.H. Yam, J.Z. Zhang. (2023) Shear resistance of corrugated web steel beams with circular web openings: test and machine learning-based prediction. Steel and Composite Structures, 47:103-117. (JCR1) Y.W. Li, Meng Wang*, Yang Xiang. (2023) Global optimization of locally installed adaptive negative stiffness amplifying damper in steel frames through rocking wall. Journal of Building Engineering, 60:105196. (JCR1) Y.W. Li, M. Wang*, Yang Xiang. (2022) Structural feasibility of braced damper system with adaptive negative stiffness devices in MDOF steel frames. Journal of Constructional Steel Research. (JCR1) Y.W. Li*, Yuji Koetaka. (2022) Seismic application of steel rocking column bases with replaceable cover plates in steel frames. Journal of Constructional Steel Research. (JCR1) Y.Z. Wang, Y.W. Li*, Y.B. Wang. (2022) Application of self-centring hybrid rocking columns in steel frames. Journal of Constructional Steel Research, 195:107349. (JCR1) Y.W. Li*, Yuji Koetaka. (2022) Steel rocking column bases with replaceable cover plates: cyclic loading behaviour and practical design. Engineering Structures, 264: 114467. (JCR1) Y.W. Li, Michael C.H. Yam, P. Zhang, K. Ke*. (2022) Development of Self-Centring Energy-Dissipative Rocking Columns with SMA tension braces. Structural Engineering and Mechanics, 76: 421-433. (JCR2) Y.W. Li, Y.Z Wang, Y.B. Wang*. (2022) Application of seismic resilient energy-dissipative rocking columns with HSS tension braces in steel frames. Engineering Structures, 253: 113821. (JCR1) Y.W. Li, Y.Z Wang, Y.B. Wang*. (2022) Experimental and numerical study of beam-through energy-dissipative rocking columns for mitigating seismic responses. Journal of Constructional Steel Research, 189: 107097. (JCR1) M. Wang, Y.W. Li*, S. Nagarajaiah*, Y. Xiang. (2022) Effectiveness and robustness of braced-damper systems with adaptive negative stiffness devices in yielding structures. Earthquake Engineering and Structural Dynamics 51: 2648-2667. (JCR1) Y.W. Li, K. Cao*. (2020) Seismic collapse risk of RC frames with irregular distributed masonry infills. Structural Engineering and Mechanics, 76: 421-433. (JCR2) Y.W. Li, K. Cao*. (2020) Establishment and application of intelligent city building information model based on BP neural network model. Computer Communications, 153:382-389. (JCR2) Y.W. Li, G.Q. Li*, J. Jiang, Y.B. Wang. (2019) Seismic Performance Improvement of Tension-Only-Braced Frames with Energy-Dissipative Rocking Columns. Engineering Structures, 196: 109286. (JCR1) Y.W. Li, G.Q. Li, J. Jiang, F.F. Sun*. (2019) Modelling of Behaviour of Continuous Energy-Dissipative Steel Columns Under Cyclic Loads. Journal of Earthquake Engineering, 23:1560-1583. (JCR1) G.Q. Li, Y.W. Li*, H.J. Wang, M.D. Pang, L.L. Li, J.Y. Sun. (2019) Experimental and numerical study on coupled shear walls with buckling restrained steel plates under cyclic loading. Engineering Structures, 199:109684. (JCR1) Y.W. Li, G.Q. Li*, J. Jiang, Y.B. Wang. (2019) Experimental Study on Seismic Performance of RC Frames with Energy-Dissipative Rocking Column System. Engineering Structures, 194:406-419. (JCR1) Y.W. Li, G.Q. Li*, J. Jiang, Y.B. Wang. (2019) Use of Energy-Dissipative Rocking Columns to Enhance Seismic Performance of Buckling Restrained Braced Frames. Journal of Constructional Steel Research, 159: 548-559. (JCR1) Y.W. Li, G.Q. Li*, J. Jiang, F.F. Sun. (2018) Mitigating Seismic Response of RC Moment Resisting Frames Using Steel Energy-Dissipative Columns. Engineering Structures, 174:586-600. (JCR1) Y.W. Li, G.Q. Li, F.F. Sun*, J. Jiang. (2018) Experimental study on continuous energy-dissipative steel columns under cyclic loading. Journal of Constructional Steel Research, 141: 104-117. (JCR1) Y.W. Li, G.Q. Li, F.F. Sun, J. Jiang*. (2018) Mitigating Inter-Story Drift Concentration of Concentrically Braced Steel Frames Using Energy-Dissipative Columns. Journal of Earthquake Engineering. 9:1-14. (JCR1) 王苑佐,刘笛,黎燕文*,杜修力. 三维应力状态下LYP225钢的循环本构模型及断裂准则研究[J]. 土木工程学报,2025,58(4):1-10. (EI) 黎燕文,李国强*. 双肢消能摇摆柱受力机理及应用于混凝土框架的减震性能[J]. 建筑结构学报,2021,42(12):65-75. (EI) 李国强,孙哲,张贵鹏,黎燕文. 一种可更换消能摇摆钢柱柱脚节点性能研究[J]. 土木工程学报,2022,55(01):10-20. (EI)
专利成果: (1) 李国强, 黎燕文, 侯兆新; 凸肋底座式铰支柱脚(发明专利), 2017-12-15, 中国, ZL201610369212.6 (2) 李国强, 黎燕文, 侯兆新, 孙飞飞; 带可更换软钢阻尼器的耗能钢柱系统(发明专利), 2017-10-31, 中国, ZL201610096098.4 (3) 李国强, 侯兆新, 黎燕文, 孙飞飞; 预制型钢混凝土组合异形耗能柱(发明专利), 2017-7-7, 中国, ZL201510552468.6 |
