刘飞于2024年获得大连理工大学市政工程专业博士学位，现为大连理工大学建设工程学院助理研究员。

    研究方向包括寒区水泥混凝土路面快速修复技术、磷酸镁水泥材料开发与性能、水泥混凝土构造物快速修补用磷酸镁水泥材料研发与应用、磷酸镁水泥材料与水泥混凝土界面黏结性能表征、道路工程材料固废资源化利用等。

发表的学术论文：

[1] Liu Fei, Pan Baofeng, Cao Peng, and Zhou Changjun*. Multiscale characterization on behaviors of the interface between magnesium phosphate cement and portland cement[J]. Construction and Building Materials, 2021, 275: 122139. (SCI，中科院TOP期刊，IF: 7.4)

[2] Liu Fei, Pan Baofeng, and Zhou Changjun*. Experimental study on a novel modified magnesium phosphate cement mortar used for rapid repair of Portland cement concrete pavement in seasonally frozen areas[J]. Journal of Materials in Civil Engineering, 2022, 34(3): 04021483.  (SCI，IF: 3.2，ASCE期刊)

[3] Liu Fei, Pan Baofeng, and Zhou Changjun*. Multilayer microstructure characterization of the interfacial transition zone between polymer-modified magnesium phosphate cement and Portland cement[J]. Journal of Materials in Civil Engineering, 2022, 34(4): 04022004. (SCI，IF: 3.2，ASCE期刊)

[4] Liu Fei, Pan Baofeng, Bian Jiaruo, and Zhou Changjun*. Experimental investigation on the performance of asphalt mixture with ceramic fiber[J]. Journal of Cleaner Production, 2023, 384: 135585. (SCI，中科院TOP期刊，IF: 11.1)

[5] Liu Fei, Pan Baofeng, Zhou Changjun*, et al. A novel insight into the interface fracture between magnesium phosphate cement mortar and cement concrete[J]. International Journal of Pavement Engineering, 2023, 24(1): 2220062. (SCI，IF: 3.8，道路工程领域顶级期刊)

[6] Liu Fei, Pan Baofeng, Zhou Changjun*, et al. Comparative study on high-temperature performance of MPC and BFPMPC[J]. Journal of Materials in Civil Engineering, 2023, 35(11): 04023419.  (SCI，IF: 3.2，ASCE期刊)

[7] Liu Fei, Pan Baofeng, Li Zhuangzhuang, Zhou Changjun*, et al. Experimental investigation on the properties of vulcanized natural rubber-modified asphalt binder[J]. Journal of Transportation Engineering, Part B: Pavements, 2023, 149(3): 04023017. (SCI，IF: 2.3，ASCE期刊)

[8] Liu Fei, Pan Baofeng, Zhou Changjun*, et al. Investigation of interface fracture between BFPMPC and cement concrete[J]. Transportation Research Record, 2023, 0(0). (SCI，IF: 1.7)

[9] Liu Fei, Pan Baofeng, Zhou Changjun*, et al. Repair interface crack resistance mechanism: A case of magnesium phosphate cement overlay repair cement concrete pavement surface[J]. Developments in the Built Environment, 2024, 17: 100355. (SCI，IF: 8.2)

[10] Liu Fei, Pan Baofeng, Zhou Changjun*, et al. Role of fly ash in the repair interface between magnesium phosphate cement and cement concrete[J]. Transportation Research Record, 2024, 0(0). (SCI，IF: 1.7)

[11] Liu Fei, Pan Baofeng, Zhou Changjun*, et al. Mixed mode fracture properties of interface for composite MPC and cement concrete specimen with asymmetric semicircular bending beam[J]. Engineering Fracture Mechanics, 2024, 306, 110196. (SCI，中科院TOP期刊，IF:5.6)