李烨 - 哈尔滨工业大学（深圳） - 土木与环境工程学院

个人简介

李烨博士，现为哈尔滨工业大学（深圳）助理教授、硕士生导师。2018年毕业于新加坡南洋理工大学获得博士学位，之后受聘为南洋理工大学研究员。2020年回国，入选“深圳市海外高层次C类人才”，担任“深圳市高层次人才海洋土木工程结构创新团队”核心成员。主要研究方向为高性能海洋混凝土、混凝土材料和结构抗火、低碳胶凝材料、人工智能辅助材料设计等。发表国际一流SCI期刊论文30余篇、国际会议论文8篇，获发明专利2项。担任国际材料与结构研究实验联合会（RILEM）会员，国际期刊Cement and Concrete Composites、Composites Part B: Engineering、Construction and Building Materials等的审稿人。教育与工作经历 2020.03~至今哈尔滨工业大学（深圳）助理教授 2018.03~2020.02 南洋理工大学土木与环境工程学院研究员 2014.01~2018.01 南洋理工大学博士 2010.09~2013.06 大连理工大学硕士 2006.09~2010.06 吉林大学学士科研项目国家重点研发计划子课题，超盐渍土环境下混凝土侵蚀与性能劣化机制，2021.12~2026.11，负责人国家自然科学基金面上项目，再生固碳胶凝材料矿物活性提升及多晶型碳化产物形成机制，2024.01~2027.12，负责人国家自然科学基金青年基金项目，超高性能混凝土材料和构件抗火及火后性能恢复研究，2021.01~2023.12，负责人广东省基础与应用基础研究基金面上项目，适用于FRP海洋环境服役的低碱度再生混凝土制备及性能提升，2023.01~2025.12，负责人深圳市高等院校稳定支持计划面上项目，2021.01~2023.12，负责人深圳市高层次人才启动项目，混凝土抗高温爆裂研究，2020.01~2022.12，负责人高性能土木工程材料国家重点实验室开放基金，钢筋及FRP筋海水海砂UHPC柱耐久性能研究，2021.07~2023.06，负责人广东省海洋土木工程重点实验室开放基金，海水海砂超高性能混凝土渗透性研究，2021.04~2022.03，负责人深圳市“海洋土木工程结构创新团队”项目，2022.10~2027.09，参与深圳市土木工程智能结构系统重点实验室（筹建启动），2021~2022，参与深圳市优秀科技创新人才培养优青项目，滨海混凝土结构的劣化模型与耐久性设计方法，2021.04~2024.01，参与新加坡国家发展部土地和宜居性国家创新挑战项目 (L2NICCFP1~2013-4), Life safety and structural fire safety of mega underground caverns in Singapore，2018.10-2019.10，参与

研究领域

高性能海洋混凝土混凝土材料及结构抗火低碳水泥基胶凝材料人工智能辅助材料表征及设计

近期论文

查看导师新发文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

Y Li, H Wang, C Shi, D Zou, A Zhou, T Liu (2023). Effect of post-fire lime-saturated water and water–CO2 cyclic curing on strength recovery of thermally damaged high-performance concrete with different silica contents. Cement and Concrete Research 164, 107050. Y Li, D Han, H Wang, H Lyu, D Zou (2023). Carbonation curing of mortars produced with reactivated cementitious materials for CO2 sequestration. Journal of Cleaner Production 383, 135501. B Zhang, C Zhou, C Wang, Y Li*, Y Gao, H Zheng (2023). Seismic behavior and modeling of elliptical concrete-filled FRP tubes with longitudinal steel rebars under lateral cyclic load and vertical constant load. Thin-Walled Structures 188, 110815. H Wei, T Liu, A Zhou, D Zou, Y Li (2023). Toughening static and dynamic damping characteristics of ultra-high performance concrete via interfacial modulation approaches. Cement and Concrete Composites 136, 104879. MJ Miah, Y Li, SC Paul, AJ Babafemi, JG Jang (2023). Mechanical strength, shrinkage, and porosity of mortar reinforced with areca nut husk fibers. Construction and Building Materials 363, 129688. Liu T., Ju Y., Lyu H., Zhuo Q., Qian H., Li Y.* (2023). Identification and analysis of seashells in sea sand using computer vision and machine learning. Case Studies in Construction Materials 18, e02121. H Qian1, Y Li1, J Yang, L Xie, KH Tan (2022). Segmentation and analysis of cement particles in cement paste with deep learning. Cement and Concrete Composites 136, 104819. Qian H. J.1, Li Y.1, Yang J. F., Xie L. H., Tan K. H.* (2022). Image-based microstructure classification of mortar and paste using convolutional neural networks and transfer learning. Cement and Concrete Composites 129, 103737. D Zhang, B Chen, X Wu, Y Weng, Y Li* (2022). Effect of polymer fibers on pore pressure development and explosive spalling of ultra-high performance concrete at elevated temperature. Archives of Civil and Mechanical Engineering 22 (4), 1-13. Miah M. J., Babafemi A.J., Li Y., Kong S. Y., Paul S. C., Jang J.G.* (2022). Impact of overburnt distorted brick aggregate on the performance of concrete at ambient temperature and after exposure to elevated temperatures. Construction and Building Materials 349, 128792. Wang H. D., Lyu H., Liu T. J., Li Y.*, Tan K. H. (2022). Effect of post-fire curing on compressive strength of ultra-high performance concrete and mortar. Construction and Building Materials 346, 128447. D Zou, Z Que, D Su, T Liu, A Zhou, Y Li (2022). Sustainable use of recycled autoclaved aerated concrete waste as internal curing materials in ultra-high performance concrete. Journal of Cleaner Production 373, 133910. Li Y., Du P.*, Tan K. H.* (2021). Fire resistance of ultra-high performance concrete columns subjected to axial and eccentric loading. Engineering Structures 248, 113158. Zhang D., Tu H.*, Li Y., Weng Y. W. (2022). Effect of fiber content and fiber length on the dynamic compressive properties of strain-hardening ultra-high performance concrete. Construction and Building Materials 328, 127024. Miah. M. J., Ali M. K., Li Y., Babafemi A. J., Paul S. C.* (2021). Impact of induction furnace steel slag as replacement for fired clay brick aggregate on flexural and durability performances of RC beams. Materials 14, 6268. Li Y., Yang E-H., Zhou A., Liu T. J.* (2021). Pore pressure build-up and explosive spalling in concrete at elevated temperature: A review. Construction and Building Materials 284, 122818. Li Y. (2021). Effect of post-fire curing and silica fume on permeability of ultra-high performance concrete. Construction and Building Materials 290, 123175. Li Y., Zhang D.* (2021). Effect of lateral restraint and inclusion of polypropylene and steel fibers on spalling behavior, pore pressure, and thermal stress in ultra-high-performance concrete (UHPC) at elevated temperature. Construction and Building Materials 271, 121879. Li Y.*, Zhang D., Tan K. H.* (2020). On measuring techniques of pore pressure in concrete at elevated temperature. Cement and Concrete Composites, 103737. Nguyen T. N. H., Li Y., Tan K. H.* (2021). Shear behavior of fiber-reinforced concrete hollow-core slabs under elevated temperatures. Construction and Building Materials 211362. Li, Y. Yang, E-H., Tan K. H.* (2020). Flexural behavior of ultra-high performance hybrid fiber reinforced concrete at the ambient and elevated temperature. Construction and Building Materials 250, 118487. Li, Y. Yang, E-H., Zhang Y., Tan K. H.* (2019). Effects of geometry and fraction of polypropylene fibers on permeability of ultra-high performance concrete after heat exposure. Cement and Concrete Research 116, 168-178. Li, Y. Yang, E-H., Tan K. H.* (2019). Synergistic effects of hybrid polypropylene and steel fibers on explosive spalling prevention of ultra-high performance concrete at elevated temperature. Cement and Concrete Composites 96, 174-181. Li Y., Pimienta P., Pinoteau N., Tan K. H.* (2019). Effect of aggregate size and inclusion of polypropylene and steel fibers on explosive spalling and pore pressure in ultra-high-performance concrete (UHPC) at elevated temperature. Cement and Concrete Composites 99, 62-71. MJ Miah, MS Miah, WB Alam, FL Monte, Y Li (2019). Strengthening of RC beams by ferrocement made with unconventional concrete. Magazine of Civil Engineering 5 (89), 94-105 Li Y., Yang E-H., Tan K. H.* (2019) Effects of heating followed by water quenching on strength and microstructure of ultra-high performance concrete. Construction and Building Materials 207, 403-411. Li Y., Tan K. H.*, Yang E-H (2018). Influence of aggregate size and inclusion of polypropylene and steel fibers on the hot permeability of ultra-high performance concrete (UHPC) at elevated temperature. Construction and Building Materials 169, 629-637. Hu P., Ying L., Li Y.*, & Liao Z. (2013). Effect of oxide scale on temperature-dependent interfacial heat transfer in hot stamping process. Journal of Materials Processing Technology 213 (9), 1475-1483. 常颖，李烨，盈亮，卢金栋，唐行辉，郭威. 热冲压钢板氧化行为对传热动力学性能影响 (2013). 吉林大学学报 (工学版) 43 (06), 1551-1557. 廖铮玮，盈亮，胡平，李烨，唐行辉，常颖. 高强度钢板热成形界面换热系数估算 (2013). 材料热处理学报 6 (34), 167-172. 会议报告 Li, Y., Tan, K. H. (2020). Evaluation of measuring methods for water vapor pressure in concrete at elevated temperature. In Proceedings of 11th International Conference on Structures in Fire. 2020中新国际应用力学与工程学术研讨会（CSAME）特邀报告，超高性能混凝土高温性能研究，四川成都，2020.10.30~2020.11.02 Li, Y., Tan, K. H. (2019). Effect of water quenching and post-fire curing on strength of fire-damaged ultra-high performance concrete. In Proceedings of 3rd International Fire Safety Symposium. pp. 254-261. Li, Y., Pimienta, P., Pinoteau, N,. Tan, K. H. (2018). Effect of Combined Polypropylene and Steel Fibers on Pore-Pressure Development in Ultra-High-Performance Concrete in Fire. In Proceedings of 10th International Conference on Structures in Fire. pp. 869-876. Li, Y., Yang, E-H., Tan, K. H. (2017). Mitigating explosive spalling of ultra-high performance concrete (UHPC) at elevated temperature. In Proceedings of The 9th National Symposium on Structure Fire Resistance. Li, Y., Tan, K. H. (2017). Synergistic effect of polypropylene fiber and aggregate size on spalling behavior of ultra-high performance concrete. In Proceedings of 5th International Workshop on Concrete Spalling due to Fire Exposure. pp. 83-91. Li, Y., Tan, K. H., Zhang, D. (2016). Optimization of Compressive Strength and Tensile Strength of Ultra-High Performance Concrete. In Proceedings of 4th International Symposium on Ultra-High Performance Concrete and High Performance Materials. pp. 223-232. Li, Y., Tan, K. H. (2016). Effects of polypropylene and steel fibers on permeability of Ultra-high performance concrete at hot state. In Proceedings of 9th International Conference on Structures in Fire. pp. 145-152. Y Li, L Ying, P Hu, D Shi, X Zhao, M Dai (2013). Coupled numerical simulation of hot stamping process and experimental verification. AIP Conference Proceedings 1532 (1), 471-477. 他引次数8. 盈亮，李烨*，胡平，史栋勇 (2012). 高强钢热成形虚拟样机工程. 第三届中国先进制造技术研讨会, Vol.1 pp. 78-85. China: Machine tool magazine