黎燕文
发布时间: 2022-09-29

 

职称:副教授,博士生导师

电子邮件yanwenli@scut.edu.cn; 办公地址:待更新;办公电话:待更新

 

博士及硕士研究生招生:学术型博士(结构工程/桥梁与隧道工程)、专业型博士、学术硕士(土木工程)、专业硕士(土木水利)。欢迎基本概念清楚、执行力强的学生报考。

 

研究方向:建筑钢结构减震及抗火、海上风电结构振动控制及智能运维。

 

黎燕文,男,19917月生,江西宜丰人,中共党员。20146月毕业于西南交通大学土木工程专业,获学士学位;20196月毕业于同济大学结构工程专业,获博士学位。20197月至202010月,在香港理工大学担任助理研究员/博士后研究员,主要从事高强结构钢及Ni-Ti形状记忆合金的抗震应用研究;202010月至20228月,在日本京都大学担任JSPS博士后研究员,主要从事地震免损伤钢柱脚及被动自适应负刚度阻尼器相关研究。于20229月入职华南理工大学土木工程系,从事教学科研工作。

长期从事高性能钢结构设计理论与关键技术相关研究:早期主要致力于消能-承载双功能金属构件及其结构体系的研发与应用,海外工作期间主要致力于高性能钢材、合金及被动自适应阻尼器的基础理论与应用。共同主持日本学术振兴会外国人特别研究员标准项目一项,参与国家重点研发计划子课题、香港特区政府优配研究基金项目各一项。已发表期刊论文20余篇(其中25SCI2篇中文EI)、会议论文7篇。获授权国家发明专利3项,实用新型专利2项。担任Engineering Structures, Journal of Structural Engineering(ASCE), Steel and Composite Structures等多本国际期刊审稿人。

 

代表性科研成果

    1. Y.W. Li, Meng Wang, Yang Xiang. Seismic performance evaluation of rocking wall-frame system with adaptive negative stiffness devices. Journal of Building Engineering. (JCR1, IF: 5.32)

    2. Y.W. Li, M. Wang*, Yang Xiang. Structural feasibility of braced damper system with adaptive negative stiffness devices in MDOF steel frames. Journal of Constructional Steel Research. (JCR1, IF: 3.65)

    3. Y.W. Li*, Yuji Koetaka. Seismic application of steel rocking column bases with replaceable cover plates in steel frames. Journal of Constructional Steel Research. (JCR1, IF: 3.65)

    4. Y.Z. Wang, Y.W. Li*, Y.B. Wang. Application of self-centring hybrid rocking columns in steel frames. Journal of Constructional Steel Research (online), 195:107349. (JCR1, IF: 3.65)

    5. Y.W. Li*, Yuji Koetaka. Steel rocking column bases with replaceable cover plates: cyclic loading behaviour and practical design. Engineering Structures (online), 264: 114467. (JCR1, IF: 4.47)

    6. 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 (online), 76: 421-433. (JCR2, IF: 3.52)

    7. 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, IF: 4.47)

    8. 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, IF: 3.65)

    9. 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, IF: 4.43)

    10. 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, IF: 3.52)

    11. 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, IF: 3.17)

    12. 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, IF: 4.47)

    13. 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, IF: 3.99)

    14. 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, IF: 4.47)

    15. 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, IF: 4.47)

    16. 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, IF: 3.65)

    17. 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, IF: 4.47)

    18. 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, IF: 3.65)

    19. 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, IF: 3.99)