李林威,女,讲师,博士
联系方式:linweili@tcu.edu.cn
研究方向
1. 超高性能及多功能混凝土材料及结构
2. 智能感知混凝土材料设计及应用
3. 工程结构健康监测
教育经历
2018.09 - 2024.09 大连理工大学 建设工程学院 结构工程专业 硕博连读
2017.07 - 2018.08 大连理工大学 建设工程学院 共青团中央研究生支教团计划
2013.09 - 2017.07 大连理工大学 建设工程学院 土木工程专业 大学本科
工作经历
2025.07- 至今 天津城建大学材料科学与工程学院 讲师
科研项目
1. 掺加纳米填料高性能混凝土的静动态力学与功能性能,大连理工大学基本科研任务专项项目,2020.11-2021.11,负责人。
2. 镀镍碳纳米管复合混凝土及其结构修复/防护应用研究(52178188),国家自然科学基金面上项目,2022.01-2026.12,排名4。
3. 纳米填料对氯离子作用下钢筋-混凝土界面粘结退化的改善作用研究(2023-BSBA-077),辽宁省自然科学基金面上项目:2023.12-2025.04,排名3。
代表性研究成果及学术奖励
学术论文
[1] L. Li, X. Wang, L. Qiu, et al. Understanding the effect of nano-zirconia on the compressive fatigue performance of cementitious composites. Fatigue and Fracture of Engineering Materials & Structure, 2023, 46(11): 4269-4285. JCR 2区
[2] L. Li, Q. Zheng, X. Wang, et al. Compressive fatigue behaviors of reactive powder concrete with nano-pozzolan fillers. International Journal of Fatigue, 2022, 156: 106681. JCR 1区
[3] L. Li, X. Wang, H. Du, et al. Comparison of compressive fatigue performance of cementitious composites with different types of carbon nanotube. International Journal of Fatigue, 2022, 156: 107178. JCR 1区
[4] L. Li, Q. Zheng, B. Han, et al. Fatigue behaviors of graphene reinforcing reactive powder concrete under compression. International Journal of Fatigue, 2021, 151: 106354. JCR 1区
[5] L. Li, Q. Zheng, Z. Li, et al. Bacterial technology-enabled cementitious composites: A review. Composite Structure, 2019, 225: 111170. JCR 1区
[6] L. Li, Q. Zheng, S. Dong, et al. The reinforcing effects and mechanisms of multi-layer graphenes on mechanical properties of reactive powder concrete. Construction and Building Materials, 2020, 251: 118995. JCR 1区
[7] L. Li, S. Dong, X. Dong, et al. Electromagnetic wave shielding/absorption performances of cementitious composites incorporating carbon nanotube metamaterial with helical chirality. Journal of Composite Materials, 2020, 54(24): 3857-3870. JCR 2区
[8] L. Zhang, L. Li, Y. Wang, et al. Multifunctional cement-based materials modified with electrostatic self-assembled CNT/TiO2 composite filler. Construction and Building Materials, 2020, 238: 117787. JCR 1区
[9] S. Dong, L. Li, A. Ashour, et al. Self-assembled 0D/2D nano carbon materials engineered smart and multifunctional cement-based composites. Construction and Building Materials, 2020, 272, 121632. JCR 1区
[10] L. Qiu, L. Li, et al. Monitoring damage of concrete beams via self-sensing cement mortar coating with carbon nanotube-nano carbon black composite fillers. Journal of Intelligent Material Systems and Structures, 2024, 221129. JCR 2区
[11] F. Yu, S. Dong, L. Li, et al. Developing a Sustainable ultra-high performance concrete using seawater and sea sand in combination with super-fine stainless wires. Journal of Materials in Civil Engineering, 2023, 35(10): 04023368. JCR 1区
[12] X. Wang, S. Dong, L. Li, et al. Evaluating the Effect of Nanofillers on Cement-based Composites Strength Via Artificial Neural Network and Genetic Algorithm. Materials Today Communications, 2023, 35(2): 105761. JCR 2区
[13] L. Zhang, S. Ding, L. Li, et al. Effect of characteristics of assembly unit of CNT/NCB composite fillers on properties of smart cement-based materials. Composites Part A. Applied science and manufacturing, 2018, 109: 303-320. JCR 1区
[14] D. Wang, S. Ding, L. Li, et al. Electromagnetic properties of multi-layer graphenes filled cementitious composites. Materials Research Express, 2019, 6(4): 045046. JCR 3区
英文专著
[1] L. Li, X. Wang, A. Ashour, et al. Chapter 1: Overview of tailoring cementitious composites with various nano materials. Book: Nano-tailored multifunctional cementitious composites. Elsevier.