基本信息
丁勇杰,北京工业大学校聘教授,第四层次优秀人才,博士生导师。科研方面,主持国家及省部级纵向项目10项。在国内外知名学术期刊发表学术论文50余篇,第一作者和通讯作者发表SCI/EI论文20余篇。以第一发明人申请国家发明专利6项,获省部级奖励2项。主编双语课精品教材《Materials in Civil and Construction Engineering》一部(署名第1),教材分别在中国和印度出版,获北京工业大学城建学部青年教师教学基本功比赛一等奖。担任《交通运输工程学报(英文版)》、《道路工程学报(英文版)》、《交通安全与环境(英文版)》等期刊青年或梯队编委,参与团标《公路养护技术工人职业技能水平》制定。
研究方向
绿色功能材料、汽车尾气综合治理、沥青材料化学结构行为、再生沥青技术、沥青材料分子模拟、城市大宗固废资源化利用。
科研项目
[1]基于自由体积理论的再生剂扩散行为与再生性能预测研究,国家自然基金(青年),24万元,主持
[2]应用于道路工程的生物沥青技术研究,重庆市人社局,60万元,在研,主持;
[3]基于多尺度分析与分子模拟技术的新旧沥青扩散行为研究,中国博士后基金面上项目,8万元,主持;
[4]CRP凉顶铺装技术,重庆市人社局,10万元,主持;
[5]长余辉自发光道路标志标线研发与应用,重庆市人社局,8万元,主持;
获奖情况
城市生态道路建设关键技术与综合效益评价体系研究,2021年度上海市交通工程学会科学技术奖,一等奖
沥青路面低碳养护决策体系构建与养护技术研发,2021年度中国公路学会科技进步奖,二等奖
代表性研究成果
[1]DING, Y., XI Y., GAO, H., WANG, J., WEI, W., ZHANG, R. Porosity of municipal solid waste incinerator bottom ash effects on asphalt mixture performance, Journal of Cleaner Production (SCI, IF=11.072, JCR一区), 2022
[2]DING, Y., SHAN, B., CAO, X., LIU, Y., HUANG, M., TANG, B. Development of bio oil and bio asphalt by hydrothermal liquefaction using lignocellulose, Journal of Cleaner Production (SCI, IF=11.072, JCR一区), 2021
[3]DING, Y., WYCKOFF, KRISTEN N., HE, Q., CAO, X., Huang, B. Biodegradation of waste asphalt shingle by white rot fungi, Journal of Cleaner Production (SCI, IF=11.072, JCR一区), 2021
[4]DING, Y., HUANG, B., & SHU, X., HU, W., YU, M. Utilizing recycled asphalt shingle into pavement by extraction method, Journal of Cleaner Production (SCI, IF=11.072, JCR一区), 2019
[5]DING, Y., LI, D., WANG, Y., WEI, W. Prediction of the Rejuvenator Diffusion Coefficient in Aged Asphalt Based on Free Volume Theory, ACS Sustainable Chemistry & Engineering (SCI, IF=9.224, JCR一区), 2022
[6]DING, Y., DENG, M., CAO, X., TANG, B. Investigation of mixing effect and molecular aggregation between virgin and aged asphalt. Construction and Building Materials (SCI, IF=7.693, JCR一区), 2019
[7]DING, Y., HUANG, B., & SHU, X. Blending efficiency evaluation of plant asphalt mixtures using fluorescence microscopy. Construction and Building Materials (SCI, IF=7.693, JCR一区), 2017
[8]DING, Y., HUANG, B., & SHU, X. Characterizing blending efficiency of plant produced asphalt paving mixtures containing high RAP. Construction and Building Materials (SCI, IF=7.693, JCR一区), 2016
[9]DING, Y., HUANG, B., & SHU, X. Investigation of function group distribution of asphalt using liquid chromatography transform and prediction of molecular model, Fuel (SCI, IF=7.67, JCR一区), 2018
[10]DING, Y., HUANG, B., SHU, X., ZHANG, Y. & WOODS, M. E. Use of molecular dynamics to investigate diffusion between virgin and aged asphalt binders. Fuel (SCI, IF=7.67, JCR一区), 2016
[11]CAO, X., DENG, M., TANG, Bo., DING, Y.*, YANG, X. Development of photocatalytic chip seal for nitric oxide removal on the surface of pavement using g-C3N4/TiO2 composite, Road Materials and Pavement Design (SCI, IF=3.805, JCR二区), 2021
[12]CAO, X., DENG, M., TANG, B., DING, Y*., & YANG, X. Development of photocatalytic chip seal for no removal on surface of pavement using g-C3N4/TiO2 Composite. Road Materials and Pavement Design (SCI, IF=3.805, JCR二区), 2019
[13]ZENG, C., DENG, M., QIAO, H., TANG, B., DING, Y*., CAO, X. Movable plates with g-c3n4/tio2 as a compound system for a greener urban parking lot environment, PLOS ONE (SCI, IF=3.752, JCR二区), 2020
[14]DING, Y., XI Y., LI, X., TANG, B., DENG, M., YAN, H. Aging Simulation of SBS Modifier During Service Life of Modified Asphalt, Journal of Materials in Civil Engineering (SCI, IF=3.651, JCR二区), 2022
[15]DING, Y., LI, D., ZHANG, H., DENG, M., MAO, X., CAO, X. Investigation of aging behavior of asphalt under multiple environmental conditions, Journal of Materials in Civil Engineering (SCI, IF=3.651, JCR二区), 2022
[16]DING, Y., CAO, X., GONG, H., HUANG, B., GUO, P. Evaluating recycling efficiency of plant-asphalt mixtures containing RAP/RAS. Journal of Materials in Civil Engineering (SCI, IF=3.651, JCR二区), 2020
[17]DING, Y., HUANG, B., & SHU, X. Utilizing fluorescence microscopy for quantifying mobilization rate of aged asphalt binder, Journal of Materials in Civil Engineering (SCI, IF=3.651, JCR二区), 2017
[18]DING, Y., TANG, B., ZHANG, Y., WEI, J. & CAO, X. Molecular dynamics simulation to investigate the influence of SBS on molecular agglomeration behavior of asphalt. Journal of Materials in Civil Engineering (SCI, IF=3.651, JCR二区), 2015
[19]CAO, H., DENG, M, DING, Y*, Y., TANG, B. Effect of Photocatalysts Modification on Asphalt: Investigations by Experiments and Theoretical Calculation, Journal of Materials in Civil Engineering (SCI, IF=3.651, JCR二区), 2020
[20]ZHU, H., YUAN, H, LIU, Y., FAN, S., & DING, Y*. Evaluation of self-Healing performance of asphalt concrete for microcracks via microwave heating, Journal of Materials in Civil Engineering (SCI, IF=3.651, JCR二区), 2020
[21]DING, Y., HUANG, B., SHU, X., TANG, B. New method for detecting oil contaminants in asphalt mixtures through chemical testing, Transportation Research Record (TRR) (SCI, IF=2.019, JCR三区),2019
[22]DING, Y., HUANG, B., & SHU, X. Modeling shear viscosity of asphalt through nonequilibrium molecular dynamics simulation, Transportation Research Record (TRR) (SCI, IF=2.019, JCR三区), 2018
[23]DING, Y., LI, D., HUANG, M., CAO, X., TANG, B. Study on the influence of skid resistance on traffic safety of highway with a high ratio of bridges and tunnels, Transportation Safety and Environment 2021,(EI)
[24]唐伯明,丁勇杰*,苏玥,曹雪娟,邓梅,单柏林.基于自由体积理论的沥青分子模型黏度预测.科学通报. 2020,(EI)
[25]DING, Y., HUANG, B., & SHU, X. Fluorescence microscopy for determining diffusion coefficient between virgin and aged asphalt binders, Association of Asphalt Paving Technologists Annual Meeting (AAPT), 2018,(EI)
[26]DING, Y., HUANG, B., & SHU, X. Evaluation of intermolecular interaction between virgin and aged asphalt binders using GPC and molecular simulation. Proceedings of the 4th Chinese-European Workshop on Functional Pavement Design, 2016,(EI)
[27]唐伯明,丁勇杰*,曹雪娟,朱洪洲.沥青分子聚集状态变化特征研究.中国公路学报. 2013,(EI)
[28]唐伯明,丁勇杰*,曹雪娟,朱洪洲.路面污染物对热反射沥青路面降温效果的影响.建筑材料学报. 2012,(EI)
[29]DING, Y., XI Y., WANG, Y. Research progress on supramolecular structures of asphalt, Journal of Traffic and Transportation Engineering (English Edition), 2023,(EI)