职称：副教授（博士生导师）

电子邮箱：lanxiaoyi@scut.edu.cn

联系电话：15914397451

招生专业：学术型博士（结构工程）、学术型硕士（土木工程）、专业型硕士（土木水利）

办公地址：广州市天河区五山路381号华南理工大学7号楼

研究兴趣：高性能钢与组合管结构、海洋工程结构、结构智能建造

#热忱欢迎认真踏实，积极进取，希望学有所成的学生加入课题组，根据学生的兴趣与志向开展个性化培养

个人简介

蓝小艺，男，1991年，广东河源人。于2014年、2016年在华南理工大学先后获得工程力学（创新班）学士学位和结构工程硕士学位，于2019年在香港理工大学获得土木与环境工程博士学位，读博期间赴美国加州大学戴维斯分校开展短期学术交流。毕业后，于2020年作为研究员加入新加坡南洋理工大学，于2022年入职华南理工大学，任副教授、博士生导师。

已发表SCI论文18篇、EI论文3篇、国际焊接学会报告3本、软件著作1项；论文SCIE引用240余次，H因子12。参编管节点领域的国际设计标准ISO 14346，研究成果被该国际设计标准采用。担任Ocean Eng、Thin Wall Struct、J Constr Steel Res、Struct等多本SCI期刊审稿人。曾获国家奖学金、香港博士奖学金、香港理工大学杰出博士论文奖（2019年土木与环境工程方向唯一）、英国结构工程师学会青年学者奖（2019年亚洲区唯一）等荣誉。

Bio: Dr. Xiaoyi Lan joins Department of Civil Engineering at South China University of Technology (SCUT) as an associate professor since 2022, after working as a research fellow at Nanyang Technological University for around two years. Dr. Lan obtains his BEng degree of Engineering Mechanics (2014) and MEng degree of Structural Engineering (2016) from SCUT, and holds PhD degree of Civil and Environmental Engineering (2019) from The Hong Kong Polytechnic University (HK PolyU). During his PhD study, he has paid a short-term academic visit to University of California, Davis.

His research interests include high-performance steel and composite tubular structures, ocean engineering structures, and smart structural construction. He has published 18 SCI-indexed papers, 3 EI-indexed papers, 3 reports of International Institute of Welding, and 1 registered software. The corresponding SCIE citations are more than 240, and H index is 12. He has also participated in updates of international design standard ISO 14346 for steel tubular joints, and his research outcomes have been adopted by this international design standard. He is an invited reviewer for top international journals, such as Ocean Eng, Thin Wall Struct, J Constr Steel Res and Struct, and awardee of National Scholarship, Hong Kong PhD Fellowship, HK PolyU FCE Award for Outstanding PhD Thesis, and Young Researchers Award by UK Institute of Structural Engineers (IStructE).

科研项目

1. 新加坡教育部项目（RG142/20），新型不锈钢管再生混凝土（RACFSST）结构的抗火性能和剩余承载性能，17万新元，在研，参与

2. 新加坡教育部项目（RG95/18），新型不锈钢管再生混凝土（RACFSST）组合结构的力学性能，14万新元，结题，参与

国际焊接学会报告

1. J Wardenier, X Lan #, JA Packer, Re-analysis of full-width RHS T- and X-joints under brace axial tension and brace in-plane bending, IIW Doc. XV-E-500-21: 1-56, 2021

2. J Wardenier, X Lan #, JA Packer, Evaluation of design methods for chord sidewall failure in RHS joints using steel grades up to S960 - state-of-the-art, IIW Doc. XV-E-489-20: 1-67, 2020

3. T Björk, TM Chan, X Lan, et al., Considerations with respect to high strength steel (S460-S700) hollow section joints, IIW Doc. XV-E-486-20: 1-42, 2020

(#共同通讯作者，这3本报告为更新国际设计标准ISO 14346的依据，国际焊接学会为ISO 14346的主编机构)

期刊论文

1. X Lan*, J Wardenier, JA Packer. Performance and design of full-width RHS X and T joints under brace axial tension and brace bending. Thin-Walled Structures, 2022, 181: 110001. (JCR Q1) (*通讯作者)

2. X Lan, S Li, O Zhao. Local buckling of stainless steel channel-section stub columns after exposure to fire. Journal of Constructional Steel Research, 2021, 187: 106950. (JCR Q1)

3. X Lan*, TM Chan, B Young. Experimental and numerical studies on stress concentration factors of high strength steel fabricated box X-joints. Thin-Walled Structures, 2021, 164: 107858. (JCR Q1) 

4. X Lan*, J Wardenier, JA Packer. Design of chord sidewall failure in RHS joints using steel grades up to S960. Thin-Walled Structures, 2021, 163: 107605. (JCR Q1)  

5. X Lan*, TM Chan, B Young. Structural behaviour and design of high strength steel CHS T-joints. Thin-Walled Structures, 2021, 159: 107215. (JCR Q1)    

6. X Lan*, TM Chan, B Young. Testing, finite element analysis and design of high strength steel RHS T-joints. Engineering Structures, 2021, 227: 111184. (JCR Q1)  

7. A He, HT Li, X Lan, Y Liang, O Zhao. Flexural buckling behaviour and residual strengths of stainless steel CHS columns after exposure to fire. Thin-Walled Structures, 152, 106715. (JCR Q1)   

8. X Lan, TM Chan, B Young. Experimental study on the behaviour and strength of high strength steel CHS T- and X-joints. Engineering Structures, 2020, 206: 110182. (JCR Q1)   

9. X Lan, TM Chan, B Young. Structural behaviour and design of high strength steel RHS X-joints. Engineering Structures, 2019, 200: 109494. (JCR Q1)  

10. X Lan, TM Chan, B Young. The continuous strength method for the design of high strength steel tubular sections in bending. Journal of Constructional Steel Research, 2019, 160: 499-509. (JCR Q1)

11. X Lan, TM Chan. Recent research advances of high strength steel welded hollow section joints. Structures, 2019, 17: 58-65. (JCR Q2)

12. X Lan, TM Chan, B Young. Structural behaviour and design of chord plastification in high strength steel CHS X-joints. Construction and Building Materials, 2018, 191: 1252-1267. (JCR Q1)

13. X Lan, J Chen, TM Chan, B Young. The continuous strength method for the design of high strength steel tubular sections in compression. Engineering Structures, 2018, 162: 177-187. (JCR Q1)

14. X Lan*, Y Huang, TM Chan, B Young. Static strength of stainless steel K- and N-joints at elevated temperatures. Thin-Walled Structures, 2018, 122: 501-509. (JCR Q1)

15. X Lan, TM Chan, B Young. Static strength of high strength steel CHS X-joints under axial compression. Journal of Constructional Steel Research, 2017, 138: 369-379. (JCR Q1)

16. X Lan, Y Huang. Structural design of cold-formed stainless steel tubular X- and T-joints at elevated temperatures. Thin-Walled Structures, 2016, 108: 270-279. (JCR Q1)

17. X Lan, F Wang, C Ning, X Xu, X Pan, Z Luo. Strength of internally ring-stiffened tubular DT-joints subjected to brace axial loading. Journal of Constructional Steel Research, 2016, 125: 88-94. (JCR Q1)

18. X Lan, F Wang, Z Luo, D Liu, C Ning, X Xu. Joint strength reduction factor of internally ring-stiffened tubular joints at elevated temperatures. Advances in Structural Engineering, 2016, 19(10): 1650-1660. (JCR Q3)

19. F Wang, X Lan, X Pan, C Ning, X Xu, D Liu, Z Luo. Strength calculation methodology for internally ring-stiffened DT-joints. Journal of Southeast University (English Edition), 2016, 32(1): 67-72. (EI)  

20. 王帆, 罗志峰, 蓝小艺, 刘丁丁. 重载张弦梁结构设计关键技术研究. 建筑结构学报, 2015, 36(5): 88-96. (EI)

21. 王帆, 罗志峰, 蓝小艺, 许晓峰, 宁晨. 内置钢管加强圆钢管约束钢筋混凝土梁柱角节点轴压性能有限元分析. 建筑结构学报, 2015, 36: 367-374. (EI)