黎燕文
发布时间: 2025-04-16

 ▎基本信息

  •  职称:教授

  •  职务:国重实验室组长助理

  •  人才称号:国家级青年人才

  •  电子邮箱:yanwenli@scut.edu.cn

  •  办公地址:五山7号楼7112A

 ▎研究方向

钢结构、海洋基础结构、金属增减材制造

 ▎学术兼职

亚热带建筑与城市科学全国重点实验室成员、9本国际SCI期刊审稿人、《建筑钢结构进展》青年编委、中国硅酸盐学会建筑固废委员会委员

招生专业

 博士生:学术型博士(结构工程/桥梁与隧道工程)、专业型博士

 硕士生:土木工程

专业学位硕士:土木水利

 ▎教育与工作经历  

教育经历                            

20149月~20196月,同济大学,结构工程,博士,导师:李国强

20109月~20147月,西南交通大学,土木工程,学士,导师:李亚东

工作经历                            

202311月至今,华南理工大学,土木与交通学院,教授             

20229月~202310月,华南理工大学,土木与交通学院,副教授             

202010月~20228月,京都大学,建筑工程系,JSPS博士后,导师:Yuji Koetaka                            

20197月~202010月,香港理工大学,建筑与房地产学系,助理研究员/博士后,导师:Michael C.H. Yam                            

 ▎教学与科研情况

  • 教学              

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              

 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,2024/01-2026/1230万元,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,2025/06-2030/062000万元,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,2025/01-2027/1210万元,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,2024/04-2026/035万元,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,2017/07-2020/12120.6万元,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,2016/07-2020/06180万元,已结题,参与



 代表性成果             

 代表性论文:

  1. 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)

  2. 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)

  3. 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)

  4. 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)

  5. 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)

  6. 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)

  7. 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)

  8. 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)

  9. 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)

  10. 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)

  11. 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)

  12. 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)

  13. 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)

  14. 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)

  15. 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)

  16. 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)

  17. 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)

  18. 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)

  19. 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)

  20. 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)

  21. 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)

  22. 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)

  23. 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)

  24. 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)

  25.  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)

  26.  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)

  27.  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       

 ▎科研岗招聘

课题组长期招收土木、力学、材料及机械等相关专业博士毕业生加盟课题组开展博士后及专职科研工作。欢迎有意向者发送简历至邮箱yanwenli@scut.edu.cn。华南理工大学为博士后及专职研究系列人才提供丰厚的待遇和配套条件,具体招聘启示请参见:https://www2.scut.edu.cn/postdoctor/2021/1102/c13590a449561/page.htm

https://www2.scut.edu.cn/postdoctor/2023/1019/c13590a522104/page.htm