董夫強,山東嘉祥人,博士,副教授,碩士生導師,入選交通運輸部青年拔尖人才、江蘇省“科技副總”、河海大學“大禹學者”(第四層次),主要從事路面結構與新材料方面的教學和科研工作。主持國家自然科學基金面上和青年項目、國家重點研發計劃子課題、中國博士後學基金面上項目、國家重點實驗室開放基金及企事業單位科技攻關項目10餘項;發表學術論文70餘篇,其中第一/通訊作者SCI/EI論文38篇;授權發明專利12項;參編專著/國家标準/地方标準5部;獲教育部科技進步二等獎、中國公路學會科技進步一等獎等省部級科技獎勵6項。
工作經曆:
2018.07- 至今 伟德 官网 副教授
2018.01-2018.07 伟德 官网 講師
2015.07-2018.01 河海大學土木工程博士後流動站 博士後
教育經曆:
2005.09-2009.06 中國石油大學 化學工程與工藝 工學學士
2009.09-2014.12 中國石油大學 化學工程與技術 工學博士
研究方向:
新型路面結構與材料
廢舊材料資源化技術
特種瀝青材料設計及理論
主講課程:
本科生課程:交通設施設計、新型路面結構與材料、路面工程
研究生課程:道路用瀝青材料、路面結構與材料設計原理
科研項目:
1.國家自然科學基金(面上項目):熱/力場耦合作用下高摻量SBS改性瀝青相分離行為調控及預測(52278451) 2023-2026,主持
2. 國家自然科學基金(青年基金項目):殘留水作用下泡沫溫拌瀝青混合料界面粘附性損傷行為研究(51708177) 2018-2020,主持
3. 國家重點研發計劃:道面設施壽命增強與性能提升技術(2021YFB2601200),2021-2024,子課題負責人
4. 中國博士後學基金面上項目:2016M591759,2016-2017,主持
5. 國家重點實驗室開放基金:基于微觀組成的SBS改性瀝青增容機理研究,2016-2018,主持
6. 科技攻關項目:基于低碳施工的抗滑微罩面技術用關鍵材料開發及其工程應用研究,2022-2023,主持
7. 科技攻關項目:環保型低碳無味瀝青關鍵技術攻關及産業化應用,2023-2025,主持
8. 江蘇交控重大專項:高速公路瀝青路面固廢精細化處理與資源化高效利用,2022-2024,子課題負責人
9. 科技攻關項目:針對大宗類SBS改性瀝青的節能減推技術研究及工程應用項目,2023-2025,技術負責人
10. 科技攻關項目:江蘇高速公路路面養護專用SBS改性瀝青技術标準研究,2019-2020,技術負責人
主要教育教學成果:
本科生教育教學
2023年獲第十八屆全國大學生交通科技大賽一等獎
2024年獲第十四屆“挑戰杯”中國大學生創業計劃競賽江蘇省選拔賽金獎
2024年獲第十四屆“挑戰杯”中國大學生創業計劃競賽全國銅獎
2022年獲第十七屆全國大學生交通科技大賽二等獎
2019年獲第十四屆全國大學生交通科技大賽三等獎
2019年獲第四屆江蘇大學生交通科技大賽二等獎
2020年獲第五屆江蘇大學生交通科技大賽二等獎
2022年獲第七屆江蘇大學生交通科技大賽二等獎
2023年獲第八屆江蘇大學生交通科技大賽三等獎
2020年指導學生獲得河海大學優秀畢業論文
2020年被評為河海大學本科畢業設計(論文)優秀指導教師
2021年主持河海大學創新性教學實驗項目1項
指導學生完成省/校級創新創訓項目4項
2023年被評選為伟德 官网“我最喜愛的任課教師”
2020、2023年被評為伟德 官网“優秀班導師”
研究生教育教學
2024年江蘇省研究生智慧交通運輸科研創新實踐大賽三等獎
2023年指導學生獲評河海大學優秀碩士論文培育獲得者
2022年主持河海大學研究生“課程思政”示範課程建設項目
2023年指導學生獲得江蘇省研究生科研與實踐創新計劃項目
河海大學專業學位研究生實踐優秀成果獲得者2人次
指導多名研究生獲得國家獎學金
代表性學術論文:
1. Dong Fuqiang, Jiang Yang, Yu Xin, et al. Performance restoration of aged SBS-modified asphalt in RAP via dry-process SBS modifier diffusion at the interface of aggregate-aged asphalt-virgin asphalt. Construction and Building Materials, 2024,453:139022. (SCI)
2. Dong Fuqiang, Yang Peixing, Yang Yansheng, et al. Designing High-Performance Rejuvenators: A Theoretical Approach to Asphaltene Dimer Aggregation and Disaggregation. Journal of Materials in Civil Engineering, 2024,36(6):04024134. (SCI)
3. Dong Fuqiang, Jiang Yang, Yu Xin, et al. Design of SBS molecular structure and contribution mechanism from its soft and hard segments to modify asphalt. International Journal of Pavement Engineering, 2024, 25(1):2345140. (SCI)
4. Dong Fuqiang, Lu Jinli, Yu Xin, et al. Insight into the diffusion behaviors of SBS-compatibilizer-coupled modified asphalt: Molecular dynamics simulation and experimental validation. Journal of Vinyl & Additive Technology, 2024:22123. (SCI)
5. Dong Fuqiang, Jiang Yang, Yu Xin, et al. Improvement of compatibility, thermal stability, and rheological properties of composite modified asphalt based on molecular gradient design. Case Studies in Construction Materials, 2024, 21:e03632. (SCI)
6. Dong Fuqiang, Wang Shiyu, Yang Yansheng, et al. Conventional properties, rheological characteristics, and thermal performance of waste polyurethane modified asphalt with butyl rubber. Construction and Building Materials, 2024,411:134460. (SCI)
7. Dong Fuqiang, Wang Shiyu, Yu Xin, et al. Investigation on the Diffusion Behavior of Dry Modified SBS at the Asphalt-Aggregate Interface: Molecular Simulation and Experiments. Journal of Materials in Civil Engineering, 2024,36(2):04023564. (SCI)
8. Dong Fuqiang, Yang Peixing, Yu Xin, et al. Diffusion Behavior of Rejuvenator and Its Influences on the Interfacial Properties of Recycled Asphalt Mixtures by Molecular Dynamics Simulations and Experiments. Journal of Materials in Civil Engineering, 2023,35(11):04023402. (SCI)
9. Yang Peixing, Dong Fuqiang*, Yu Xin, et al. Molecular study on diffusion behavior and performance recovery of aged asphalt binder containing functional rejuvenators. Construction and Building Materials, 2023,407:133536. (SCI)
10. Dong Fuqiang, Zu Yuanzhe, Chen Bei, et al. Laboratory investigations of the effects of asphalt mortar and its viscoelasticity on the workability of asphalt mixtures. Construction and Building Materials, 2023,389:131756. (SCI)
11. Chen Bei, Dong Fuqiang, Yu Xin, et al. Research on evaluation method of asphalt mixture workability based on minimum mixing energy consumption. Construction and Building Materials, 2023,389:131760. (SCI)
12. Dong Fuqiang, Wang Jincheng, Yu Xin, et al. Regeneration mechanisms of aged SBS modified asphalt from RAP materials: Molecule structure, morphology, phase transition, and interface adhesion characteristics. Construction and Building Materials, 2023,388:131689. (SCI)
13. Dong Fuqiang, Yang Peixing, Yu Xin, et al. Morphology, chemical reaction mechanism, and cross-linking degree of asphalt binder modified by SBS block co-polymer. Construction and Building Materials, 2023,378:131204. (SCI)
14. Chen Bei, Dong Fuqiang*, Yu Xin, et al. Chemo-Rheological Characterization of Aging Behaviors of Warm-Mix High-Viscosity Modified Asphalt. Journal of Materials in Civil Engineering, 2022,34(12):04022342. (SCI)
15. Dong Fuqiang, Hao Yunzhe, Yu Xin, et al. Influence of Adding Compatibilizer to SBS Polymer-Modified Asphalt on Compatibility and Rheological Behavior. China Petroleum Processing & Petrochemical Technology, 2021,23(4):37-46. (SCI)
16. Chen Bei, Dong Fuqiang*, Yu Xin, et al. Evaluation of Properties and Micro-Characteristics of Waste Polyurethane/Styrene-Butadiene-Styrene Composite Modified Asphalt. Polymers, 2021,13(14):2249. (SCI)
17. Dong Fuqiang, Yu Xin, Wang Tianyu, et al. Influence of base asphalt aging levels on the foaming characteristics and rheological properties of foamed asphalt. Construction and Building Materials, 2018,177:43-50.(SCI)
18. Dong Fuqiang, Zhao Wenzhe, Zhang Yuzhen, et al. High-temperature performance and microstructure of composite modified hard asphalt. Petroleum Science and Technology, 2018,36(7):481-486.(SCI)
19. Dong Fuqiang, Yu Xin, Chen Jun, et al. Investigation on compatibility and microstructure of PCBs-modified asphalt. Journal of Applied Polymer Scinence, 2017, 44789.(SCI)
20. Dong Fuqiang, Yu Xin, Xu Bo, et al. Comparison of high temperature performance and microstructure for foamed WMA and HMA with RAP binder. Construction and Building Materials, 2017,134:594-601.(SCI)
21. Dong Fuqiang, Yu Xin, Liang Xingmin, et al. Influence of foaming water and aging process on the properties of foamed asphalt. Construction and Building Materials, 2017,153:866–874.(SCI)
22. Dong Fuqiang, Yu Xin, Liu Shengjie, et al. Rheological behaviors and microstructure of SBS/CR composite modified hard asphalt. Construction and Building Materials, 2016,115:285-293. (SCI)
23. Dong Fuqiang, Zhao Wenzhe, Zhang Yuzhen, et al. Influence of SBS and asphalt on SBS dispersion and the performance of modified asphalt. Construction and Building Materials, 2014, 62:1-6.(SCI)
24. Dong Fuqiang, Fan Weiyu, Yang Guoming, et al. Dispersion of SBS and its influence on the performance of SBS modified asphalt. Journal of Testing and Evaluation, 2014, 42(5):1073-1080. (SCI)
25. Yu Xin, Dong Fuqiang*, Xu Bo, et al. RAP Binder Influences on the Rheological Characteristics of Foamed Warm-Mix Recycled Asphalt. Journal of Materials in Civil Engineering, 2017,29(9): 04017145.(SCI)
26. Yu Xin, Dong Fuqiang*, Liang Xingmin, et al. Rheological Properties and Microstructure of Printed Circuit Boards Modified Asphalt. China Petroleum Processing and Petrochemical Technology, 2017,19(1):72-80.(SCI)
27. Yu Xin, Dong Fuqiang*, Ding Gongying, et al. Rheological and microstructural properties of foamed epoxy asphalt. Construction and Building Materials, 2016,114:215-222.(SCI)
28. Wei Jianming, Dong Fuqiang, Li Yanan, et al. Relationship analysis between surface free energy and chemical composition of asphalt binder. Construction and Builiding Materials, 2014,71:116-123.(SCI)
29. Yu Xin, Chen Bei, Dong Fuqiang*, et al. Repurposing Waste Polyurethane into Cleaner Asphalt Pavement Materials: Laboratory Investigation. Journal of Materials in Civil Engineering, 2023,35(9): 15892.(SCI)
30. Chen Bei, Yu Xin, Dong Fuqiang*, et al. Geometrical characteristics of aggregates: The influence of sphericity, angularity, and surface texture on the workability of asphalt mixtures. Construction and Builiding Materials, 2023,402:132941.(SCI)
31. Chen Bei, Yu Xin, Dong Fuqiang*, et al. Rheological Properties of High-Viscosity Modified Asphalt Containing Warm-Mix Additives.Journal of Materials in Civil Engineering, 2023,35(5): 14839.(SCI)
32. Chen Bei, Yu Xin, Dong Fuqiang*, et al. Influence of asphalt mixture workability on the distribution uniformity of asphalt, aggregate particles and asphalt film during mixing process. Construction and Builiding Materials, 2023,377:131128.(SCI)
33. Chen Bei, Yu Xin, Dong Fuqiang*, et al. The application of intelligent control technology for the evaluation of temperature segregation in asphalt mixture paving. Construction and Builiding Materials, 2023,366:130178.(SCI)
34. Chen Bei, Yu Xin, Dong Fuqiang*, et al. Compaction Quality Evaluation of Asphalt Pavement Based on Intelligent Compaction Technology. Journal of Construction Engineering and Management, 2021,147(9):04021099. (SCI)
35. Ding Gongying, Yu Xin, Dong Fuqiang*, et al. Using Silane Coupling Agent Coating on Acidic Aggregate Surfaces to Enhance the Adhesion between Asphalt and Aggregate: A Molecular Dynamics Simulation. Marerials, 2021, 13(23):5580. (SCI)
36. Yu Xin, Ding Gongying, Dong Fuqiang. Laboratory investigation of cracking resistance performance of the cold-mixed epoxy resin. Journal of Applied Polymer Science, 2021, 138(9):e49923. (SCI)
37. Jin Yong, Yu Xin, Dong Fuqiang, et al. The improvement of various polyethylene on the high-temperature performance of degraded ground tire rubber modified asphalt and the compatibility enhancement mechanism of compatibilizer for composite modified asphalt. Construction and Builiding Materials, 2024,427:136255.(SCI)
38. 董夫強,祖元哲,于新,等. 熱拌瀝青混合料拌和和易性的評價方法. 建築材料學報,2024,72(3):275-282. (EI)
39. 董夫強,祖元哲,于新,等. 瀝青混合料和易性評價方法研究綜述.中外公路,2024,44(5):83-96.
40. 王詩雨,董夫強*,于新,等. 相容劑組成對SBS改性瀝青抗老化性能的影響. 建築材料學報,2023,26(9):996-1002. (EI)
授權專利:
一種用于瀝青混合料和易性評價模型及和易性評價方法,ZL202310732912.7,2024年
一種水性環氧乳化瀝青、其制備方法及應用,ZL202211615629.8,2024年
一種溫熱高粘瀝青改性劑及其制備方法,ZL202211436136.8,2024年
考慮養護工程特點的SBS改性瀝青短期老化模拟方法,ZL202211409463.4,2024年
一種可快速溶解的高粘瀝青改性劑、基于該改性劑的高粘瀝青及其制備方法,LU504967,2024年
一種瀝青路面養護專用粘層材料、其制備方法及應用,ZL202211491587.7,2023年
一種針對RAP中老化SBS改性瀝青的高效性能恢複劑及其制備方法,ZL202211327906.5,2023年
一種現場存儲SBS改性瀝青的性能提升方法,ZL202110528419.4,2022年
一種具有施工和易性的乳化再生劑及其制備方法,ZL202110135288.3,2022年
一種室内模拟瀝青混合料老化方法,ZL202010503766.7,2022年
一種排水路面專用高粘改性瀝青及其制備方法,ZL201810357952.7,2020年
一種泡沫溫拌瀝青用發泡劑及其制備方法,ZL201610025513.7,2018年
一種基于智能管控技術的瀝青集料筒倉系統,ZL202020358906.1,2020年
筒倉智能管控系統演示軟件V1.0,2020SR0968982,2020年,軟件著作權
主要獲獎:
基于泡沫溫拌設備的瀝青路面綠色施工關鍵技術研發及工程應用,中國公路學會科技進步一等獎(10/21),2016;
瀝青路面低碳施工與廢舊材料資源化關鍵技術研發及應用,教育部科技進步二等獎(7/19),2019;
大摻量高分散橡膠瀝青膠溶作用機理與溫拌路用性能研究,中國交通運輸協會科技進步二等獎(3/10),2023;
泡沫溫拌瀝青綠色築路關鍵技術研發及工程應用,浙江省政府三等獎(6/7),2020;
岩石礦料綠色高效利用關鍵技術及道路修補材料應用,中國公路建設行業協會科技進步二等獎(6/13),2023;
環境适配型路面建養材料質量提升關鍵技術及工程應用,中國商業聯合會科技進步二等獎(4/11),2023;
封層粘層灑布與瀝青混合料攤鋪一體機應用關鍵技術研發及工程應用,江蘇省綜合交通運輸科學會科學技術二等獎(6/8),2019。
主參編标準:
國家标準:《瀝青混合料專業名詞術語》 GB/T37383-2019
地方标準:《泡沫溫拌瀝青混合料施工技術規範》 DB33/T 2384-2021
聯系方式
地址:江蘇省南京市鼓樓區西康路1号伟德 官网科學館1209B
郵箱:dfq0107@126.com