教授,硕导,博士,博后。入选福建省高层次引进人才(C类)和广西桂博新计划。主研方向:钢管混凝土(CFST)美兰拱桥、钢-超高性能混凝土(UHPC)组合与混合结构、基于深度学习材料-结构一体化设计计算等。所在课题组经费充足,支持和提供参加国内外会议、短期与长期学习交流机会,欢迎具有土木、材料、计算机和化学基础的优秀学子加入!
附个人科研情况介绍:
主持中国博士后特别资助(站中)项目和高层次人才项目等3项;参与国家自然基金面上1项和省部级项目等2项(均排名2);作为技术骨干参与国家、广西重大研发计划等项目各1项。以第一作者或通讯作者发表SCI、EI论文30余篇,申请和授权专利5项。先后参与格鲁吉亚B3桥、福建省新洪塘大桥(钢-UHPC组合桥面板)、广西平南三桥(CFST拱桥)、广西天峨龙滩特大桥(CFST美兰拱桥)等科研项目的技术攻关。
担任国内EI期刊《交通运输工程学报》(青年编委)、《土木工程学报》、《中国公路学报》、《工程力学》和《材料导报》等审稿专家;国际SCI/EI期刊《Engineering Structures 》、《Journal of Construction Steel Research 》、《Journal of Building Engineering》、《Structures》、《Engineering Fracture Mechanics》、《Construction and Building Materials》、《Steel and Composite Structures》和《Structures Concrete》等审稿专家;Symmetry期刊客座编辑;中文核心期刊《建筑科学与工程学报》、《广西大学学报》(自然科学版)和《力学季刊》等审稿专家。
附近些年发表论文(仅第一作者或第一通讯):
英文期刊论文[1] Cong Li, Weijia Wu Xia Luo, et al. Shear behavior of outer interface in CE-CFST column strengthened with stud connector [J]. Journal of Constructional Steel Research, 2026, 236:110001. (SCI/EI)
[2] Cong Li, Ji Dailai, Chen Baochun, et al. Effect of two-stage initial stresses on the axial capacity of STRC column [J]. Structures, 2025, 80: 110022. (SCI/EI)
[3] Cong Li, Dailai Ji, Baochun Chen, et al. Bond strength of concrete-filled steel tube with high strength [J]. Construction and Building Materials 2025, 492: 142772. (SCI/EI)
[4] Cong Li, Baochun Chen, Jiangang Wei, et al. State-of-the-art of bridge composite structures in China [J]. Journal of Traffic and Transportation Engineering (English Edition), 2025, 12(6): 1633-1661. (SCI/EI)
[5] Fangmei Huang, Jiaping Liu, Xiancheng Li, Cong Li, et al. Effect of curing regimes on the long-term stability of cement paste with low water-to-cement ratio, Construction and Building Materials, 2025, 475. 141182.
[6] Cong Li, Fangmei Huang*, Xiancheng Li, et al. Effect of slag on the long-term strength stability of low w/b pastes under different curing conditions, Construction and Building Materials, 2025, 492:142960. (SCI/EI)
[7] Cong Li, Dai lai Ji, et al. Pull-out test of hybrid shear connector in steel- precast UHPC composite structure [J]. Structures, 2024, (66):106832. (SCI/EI)
[8] Fuyun He, Cong Li*, Baochun Chen, et al. Axial compression behavior of steel tube reinforced concrete column[J]. Engineering Structures, 2024, 303: 117548. (SCI/EI)
[9] Fuyun He, Cong Li*, Wei Shen, et al. Eccentric compression behavior of steel tube reinforced concrete column[J]. Journal of constructional Steel Research, 2024, 219: 108787. (SCI/EI)
[10] Wei Shen, Hao Bai Fei Wang, Cong Li *, et al. Acoustic Emission Characteristics and Damage Evolution of Concrete-Encased CFST Columns under Compressive Load [J]. Engineering Fracture Mechanics. 2024.311:110578. (SCI/EI)
[11] Wei Shen, Fei Wang, Cong Li*, et al. Revealing Evolution Law and Failure Mechanism of Interface Damage in Concrete-Encased CFST Columns by Acoustic Emission Technology [J]. Journal of Building Engineering. 2024,93:109792. (SCI/EI)
[12] Fangmei Huang, Jiaping Liu, Xiancheng Li, Cong Li*, et al. Impact of silica fume on the long-term stability of cement-based materials with low water-to-binder ratio under different curing conditions, Construction and Building Materials, 2024, 450: 138604. (SCI/EI)
[13] Xia Luo, Xinye Yu, Jiangang Wei, Cong Li*, et al. Structural performance of ultra-high strength concrete filled high strength steel tube stub columns under eccentric loading [J]. Journal of Building Engineering, 2024, 97:110752. (SCI/EI)
[14] Cong Li, Baochun Chen*, et al. Tensile test of headed stud in steel-UHPC composite slab [J]. Construction and Building Materials, 2023, (363): 129686. (SCI/EI)
[15] Cong Li, Baochun Chen*, et al. Push-out test of hybrid shear connector in steel-precast UHPC composite slab [J]. Structures, 2023, (50): 1767-1782. (SCI/EI)
[16] Wenxu Hu, Cong Li*, et al. Finite element analysis on shear behavior of headed studs in steel-UHPC composite slab [J]. Structures, 2023, (52):464-475. (SCI/EI,Editor-in-Chief’s Featured Article)
[17] Fuyun He, Cong Li*, et al. Compressive behavior of concrete-encased CFST column with initial stress[J]. Journal of Constructional Steel Research, 2023, (201). (SCI/EI)
[18] Cong Li, Baochun Chen*, et al. Experimental study on axial compressive behavior of stone masonry with ultra-high performance mortar [J]. Materials &Structures, 2023, 56:124. (SCI/EI)
[19] J P Liu, B C Chen, Cong Li, et al. Recent Application and Research of Concrete Arch Bridges in China [J]. Structural Engineering International, 2023. (SCI/EI)
[20] Y Tang, Ming, Z Chen, C Wu, B Chen, Cong Li, et al. Seismic performance evaluation of recycled aggregate concrete-filled steel tubular columns with field strain detected via a novel mark-free vision method [J]. Structures 2022, (37): 426-441. (SCI/EI热点论文)
中文期刊论文
[1] 何福云, 李聪*, 陈宝春, 等. 钢管增强混凝土柱轴压机理与承载力计算方法研究[J]. 土木工程学报, 2026: 1-15. (在线发表)
[2] 李聪,毛庆超, 胡文旭, 等. 栓黏混合连接钢-UHPC组合板界面抗剪试验[J].交通运输工程学报, 2025, 25 (5): 278-296. (EI)
[3] 何福云, 李聪*, 陈宝春, 等. 钢管增强混凝土拱面内受力性能试验研究[J]. 交通运输工程学报, 2025: 1-14. (在线发表)
[4] 韦建刚, 陈宝春*, 刘永健, 陈宜言, 牟廷敏,刘君平,李聪,姜磊等. 近十年我国桥梁组合结构研究与应用进展[J]. 福建理工大学学报, 2025, 23 (1): 1-32.
[5] 李聪, 陈宝春*, 等. 钢-UHPC组合板环氧粘结界面抗剪与抗拉性能试验[J]. 土木工程学报, 2023, 56 (1): 25-36, 56. (EI)
[6] 李聪, 陈宝春*, 韦建刚. 粗集料UHPC收缩与力学性能 [J]. 交通运输工程学报, 2019,19(5):11-20. (EI)
[7] 陈宝春, 李聪*, 等. 超高性能混凝土收缩综述 [J]. 交通运输工程学报, 2018, 18(1):13-28. (EI, 高被引)
[8] 李聪, 陈宝春*, 等. 钢-UHPC组合板栓钉抗剪承载力、滑移与刚度计算[J]. 工程力学, 2023,1-13. (EI)
[9] 李聪, 陈宝春*, 等. 超高性能混凝土圆环约束收缩试验研究[J]. 工程力学, 2019,36(8): 49-58. (EI)
[10] 李聪, 陈宝春. 粉煤灰UHPC收缩与抗压强度相关性研究 [J]. 福州大学学报 (自然科学版), 2019, 47(2): 251-257. (CSCD,高被引)
[11] 胡文旭,李聪*,陈宝春. 采用高性能水泥基粘结剂的钢-UHPC组合板界面剪切性能试验研究[J]. 建筑科学与工程学报, 2022,1-9. (CSCD)
[12] 陈宝春, 何福云, 李聪, 等. 美兰法与美兰拱桥技术发展综述 [J]. 交通运输工程学报, 2022, 22(6): 1-24. (EI).
[13] 胡文旭,陈宝春, 李聪. 钢-UHPC组合板群钉效应有限元分析[J]. 福州大学学报 (自然科学版), 2022. 2022, 50(6): 833-840. (CSCD)