基本信息:
胡建英,博士,副教授,博士生导师
所属团队:道路与轨道铺面技术研究中心
东南大学九龙湖校区交通学院大楼507室
联系方式: jianyinghu@seu.edu.cn
研究方向:
聚氨酯胶结料研发
聚氨酯混合料优化设计
聚氨酯铺装(桥面、路面)结构设计
功能性路面材料与结构设计
教育经历:
2011.08-2016.05,美国凯斯西储大学土木工程系,博士
2008.09-2011.05,东南大学材料科学与工程学院,硕士研究生
2004.09-2008.07,重庆大学材料科学与工程学院,学士
工作经历:
2022.10-至今,东南大学交通学院,副教授,博士生导师
2019.9-2022.09,东南大学交通学院,副研究员,硕士生导师
2016.05-2019.06,美国凯斯西储大学土木工程系,博士后
2019.01-2019.05,美国凯斯西储大学土木工程系,兼职讲师
科研项目(部分):
(1)热敏量子点改性沥青的温度响应光谱特性及调温机理研究,国家自然科学基金青年项目, 2021.01-2023.12。
(2)温敏量子点改性沥青的光谱特性及调温机理研究,江苏省自然科学基金青年项目, 2020.06-2022.06。
(3)冷拌冷铺高性能薄层罩面关键技术研究,福建省交通运输科技项目, 2019.09-2022.12。
(4)玄武岩细集料在沥青路面中的高值化应用研究,浙江省交通投资集团科研项目, 2021.06-2022.12。
授课:
土木工程材料(本科生)
现代道路设计-原理与方法(留学生学位课)
学术成果(近五年):
² 授权专利
(1)胡建英,李煜炜,马涛,张贤明,陈思宇,陈葱琳. 一种利用二氧化钛量子点制备抗老化改性沥青的方法及其应用. 2022.02.25, CN114085540A.
(2)胡建英,段少婵,马涛,张贤明. 一种基于生物抗冻蛋白的抑冰泡沫沥青及其制备方法. 2022.04.19, CN114369371A.
² 期刊论文
(1) Jianying Hu, Hao Liu, Yuwei Li, Tao Ma*. Highly reflective and fluorescent TiO2 quantum dots modified asphalt coating: Engineering characterizations and microclimatic modelling. Construction and Building Materials, 2023, 401: 132701. Doi: 10.1016/j.conbuildmat.2023.132701
(2) Shaochan Duan, Jianying Hu, Jingxian Cui, Xiaonan Wu, Yan Chen, Tao Ma*, Hongyu Wang. Eliminating the oxygen inhibition in the redox free radical polymerization of alicyclic polyurethane acrylate coatings: A study of the beneficial effect of paraffin wax. Progress in Organic Coatings, 2023, 183: 107796.
(3) Jianying Hu, Yuwei Li, Tao Ma, Chao Zhang. Characteristics of highly reflective and fluorescent TiO2 quantum dots modified asphalt binder. Construction and Building Materials, 2022, 343(4):128101.
(4) Jianying Hu, Tao Ma, Teng Yin, Yang Zhou. Foamed warm mix asphalt mixture containing crumb rubber: Foaming optimization and performance evaluation. Journal of Cleaner Production, 2022, 333(19):130085.
(5) Jianying Hu, Tao Ma, Kang Ma, Jian Xu. Three-dimensional discrete element simulation on degradation of air voids in double-layer porous asphalt pavement under traffic loading. Construction and Building Materials, 2021, 313(4):125570.
(6) Jianying Hu, Tao Ma, Yuhao Zhu, Xiaoming Huang, Jian Xu. A feasibility study exploring limestone in porous asphalt concrete: Performance evaluation and superpave compaction characteristics. Construction and Building Materials,2021, 279(1):122457.
(7) Jianying Hu, Tao Ma, Kang Ma. DEM-CFD simulation on clogging and degradation of air voids in double-layer porous asphalt pavement under rainfall. Journal of Hydrology,2021,595(4):126028.
(8) Jianying Hu, Tao Ma, Yuhao Zhu, Xiaoming Huang, Jian Xu, Libiao Chen. High-viscosity modified asphalt mixtures for double-layer porous asphalt pavement: Design optimization and evaluation metrics. Construction and Building Materials, 2021, 271(18):121893.
(9) Jianying Hu, Xiong Yu. Adaptive building roof by coupling thermochromic material and phase change material: Energy performance under different climate conditions. Construction and Building Materials,2020, 262(3): 120481.
(10)Jianying Hu, Liqun Zhang, Xijin Zhang, Yuan Guo, Xiong Yu. Comparative evaluation of moisture susceptibility of modified/foamed asphalt binders combined with different types of aggregates using surface free energy approach. Construction and Building Materials, 2020, 256(10): 119429.
(11)Jianying Hu, Xiong Yu.Adaptive Greenhouse with Thermochromic Material: Performance Evaluation in Cold Regions. Journal of Energy Engineering, 2020, 146(4): 04020032.
(12)Jianying Hu, Xiong Yu.Performance evaluation of solar-responsive asphalt mixture with thermochromic materials and nano-TiO2 scatterers. Construction and Building Materials, 2020, 247(7): 118605.
(13)Jianying Hu, Xiong (Bill) Yu. Electromagnetic Simulation on Optical Performance of Thermochromic Film: Influences of Particle Size, Shape, Concentration, and Film Substrate. Optik, 2020, 206: 164307.
(14)Jianying Hu, Xiong (Bill) Yu. Simulation of Optical Properties of Thermochromic Film: Influences of Particle Configuration and Geometry. Optik, 2020, 202: 163635.
(15)Jianying Hu, Xiong (Bill) Yu. Thermo and light-responsive building envelope: energy analysis under different climate conditions. Solar Energy, 2019. 193: 866-877.
