张丰雷，男，1993年7月出生。2023年12月在东南大学交通学院获得博士学位，师从张磊教授，专业为道路与铁道工程，目前从事智能材料研发与应用、铺装用环氧沥青材料的研发和机理研究、高掺量环氧改性热再生耐久路面关键技术研究工作。2024年获得国家自然科学基金青年项目与重庆市教委项目资助。目前共发表期刊论文30余篇，其中一作SCI论文12篇，导师一作本人二作或通讯SCI论文6篇，中文核心论文1篇，授权发明专利4件。每年招收交通运输和交通运输工程专业研究生，课题组氛围融洽，经费充足，欢迎大家报考。

 

1、国家自然科学基金青年项目，基于Janus仿生粒子定向迁移驱动的环氧沥青界面混溶增韧机理研究，2025-2028

2、重庆市教委项目，山区环境下环氧沥青长寿命筑路材料的制备及性能研究，2024-2027

3、校级科研启动资金，仿生增韧的高性能改性沥青制备及其路用性能，2024-2026

 

（1）一种能使环氧沥青自愈合的复合固化剂材料及其制备方法与应用，张丰雷，张磊，黄卫。专利号：CN202210682970.9

（2）一种含有连通孔隙的沥青混凝土截面模拟方法，张磊，莫振辉，周松，张丰雷，等。专利号：CN202110538273.1

（3）一种含改性石墨烯微片的复合沥青改性剂及其制备方法和应用，李晶，张丰雷，等。 专利号：CN201710123909

（4）一种带噪路面裂缝图像的降噪方法，张磊，苑霄哲，王文炜，张丰雷，等。授权号：CN 111311508 B

 

研究方向

• [1].智能材料研发与应用

• [2].功能化沥青混合料的创新与性能研究

• [3].高掺量环氧改性热再生耐久路面关键技术研究

• [4].环氧沥青材料的研发和机理研究

• [5].生物基改性沥青材料研发及性能研究

学术兼职

• [1]. Materials Technology Reports 期刊编委
  

• [2]. 世界交通运输大会(WTC)机场工程学科机场基础设施技术委员会委员

• [3]. 《市政技术》青年编委

 

硕博阶段：
（1）Fenglei Zhang, Yaseen Muhammad, Yu Liu, et al. Measurement of water resistance of asphalt based on surface free energy analysis using stripping work between asphalt-aggregate system. Construction & Building Materials, 2018, 176:422-431. (JCR一区，IF=7.693)

（2）Fenglei Zhang, Lei Zhang, et al. Study on preparation and properties of new thermosetting epoxy asphalt. Construction and Building Materials, 311 (2021): 125307. (JCR一区，IF=7.693)

（3）Fenglei Zhang, Lei Zhang, et al. Laboratory development and evaluation of an oleylamine curing Epoxy Asphalt. International Journal of Pavement Engineering, 2022: 1-10. (JCR一区，IF=4.178)

（4）Fenglei Zhang, Lei Zhang, Xiaoxuan Guo, , et al. Study on Curing Kinetics of Epoxy System and DFT

   Simulation. Journal of Thermal Analysis And Calorimetry, 2023 1-11. (JCR一区，IF= 4.4)

（5）Fenglei Zhang, Jing Li, et al. Preparation Methods and Performance of Modified Asphalt Using Rubber-Plastic Alloy and Its Compounds. (ASCE) Journal of Materials in Civil Engineering, 2018,30(8):04018163,1-10. (JCR二区，IF= 3.651)

（6）Fenglei Zhang, Xiaodong Liu, et al. Preparation and Properties of Epoxy Asphalt Modified by Biomimetic Graphene Oxide Nanocomposites. (ASCE) Journal of Materials in Civil Engineering, 2023, 35(1): 04022392. (JCR二区，IF= 3.651)

（7）Fenglei Zhang, Lei Zhang, et al. Study on the Performance of Epoxy Asphalt with Different Matrix Asphalt Contents (ASCE) Journal of Materials in Civil Engineering, 2023, 35(10): 04023339.. (JCR二区，IF= 3.651)

（8）Fenglei Zhang, Lei Zhang, et al. A review on the self‐healing ability of epoxy polymers. Journal of Applied Polymer Science, 138.16 (2021): 50260. (JCR二区，IF= 3.057)

（9）Fenglei Zhang, Wei Huang, Lei Zhang, Xiaodong Liu, et al. Preparation and properties evaluation of shape memory epoxy asphalt composites with high toughness and damping. Journal of Applied Polymer Science, 2022: e53117. (JCR二区，IF= 3.057)

（10）Fenglei Zhang, Jianping Xiong, et al. Studies on the Variation in Performance of Different Types of Asphalts Produced from the Same Oil Source. Arabian Journal for Science and Engineering, 2019, 44: 4855-4862 (JCR二区，IF= 2.807)

（11）Fenglei Zhang, Chen Ling, et al. Preparation and properties of waterborne polyurethane modified emulsified asphalt. Journal of Functional Materials, 2018, 49(2):2183-2186. (中文核心）

（12）Lei Zhang, Qing Lu, Rui Shan, Fenglei Zhang（通讯）*, et al. Photocatalytic degradation of vehicular exhaust by nitrogen-doped titanium dioxide modified pavement material. Transportation Research Part D: Transport and Environment, 2021, 91: 102690. (JCR一区，IF=7.041)

（13）Lei Zhang, Fenglei Zhang（通讯）*, et al. Preparation and Performance of Graphene Nanoplatelets-Modified Epoxy Asphalt. （ASCE）Journal of Performance of Constructed Facilities, 2021, 35(6): 04021083. (JCR三区，IF=2.317)

2024年：
[1] Zhang F , Han D , Xu N ,et al.Introducing Diels‐Alder reaction with carbon nanotubes for the enhanced repair performance of epoxy resin modified asphalt[J].Polymer Composites, 2024, 45(16).DOI:10.1002/pc.28780.

[2]张丰雷（通讯）,等.热拌环氧基改性沥青的最佳制备工艺[J].公路,2024,69(12):86-92.

2025年：

[1] Wang H, Zhang F（通讯）, Huang W, et al. Investigation on the effects of nano-modifiers on the toughness of epoxy asphalt binder[J]. Construction and Building Materials, 2025, 472: 140912.

[2] Fenglei Zhang, Shi Fan, et al. Study on adhesion properties of epoxy asphalt on different aggregates[J]. Applied Surface Science, 2025, 708: 163751.

联系方式：flzhang1993@163.com，15678988213