严宇-交通运输工程学院

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严宇

教授，博导，
道路与机场工程系
交通科学与技术研究院副院长
邮箱：yyan@tongji.edu.cn

交通运输工程学院教授，博士生导师，交通科学与技术研究院副院长，入选国家级和上海市相关人才计划。研究兴趣主要包括：沥青路面破损机理、材料性能评价及模型方法、路面养护与再生，高性能路面材料以及结构-材料协同设计等；主持1项国家自然科学基金青年基金，共同主持/参与了5项美国佛罗里达州交通厅科研项目；发表高水平学术论文30余篇，负责编制并完成1部美国国家公路与运输协会（AASHTO）标准规范，3项科研成果被佛罗里达州道路与桥梁建设规范收录；兼任道路领域SCI期刊《Road Mater Pavement》编委，国际材料与结构研究实验联合会（RILEM）基于性能的沥青再生技术委员会（TC PAR）委员，是美国沥青铺面技术专家协会、国际沥青路面协会高级会员。

长期招收对道路结构-材料设计一体化、长寿命、再生和低碳路面以及道路基础设施数字化和智能化等方面研究感兴趣的硕士、博士与博士后，欢迎诚实守信，严谨求实，刻苦钻研、勇于创新的同学报名，也欢迎有计算机、电信、测绘等相关背景同学与我们联系，将个人简历发至本人邮箱。

国际标准规范

AASHTO TP127: Standard Method of Test for Determining the Fracture Energy Density of Asphalt Binder Using the Binder Fracture Energy (BFE) Test, American Association of State Highway and Transportation Officials, Washington, D.C.

期刊论文（部分）

1. Yan. Y., Hernando. D*., Park. B., Allen. C. and Roque. R. (2021). Understanding Asphalt Binder Cracking Characterization at Intermediate Temperatures: Review and Evaluation of Two Approaches, Construction and Building Materials.

2. Yan. Y*., Hernando. D., Park. B, Tebaldi. G. and Roque. R. (2021). Effect of Aged Binder Distribution on the Fracture Tolerance of Asphalt Mixtures with Reclaimed Asphalt Pavement, ASTM Journal of Testing and Evaluation.

3. Park. B*., Zou. J., Yan. Y., Roque. R., Lopp. G. and Moseley. H. (2021). Effect of Reclaimed Asphalt Pavement on Cracking Performance of Asphalt Mixtures with Regular and High Polymer Modified Binders, Road Materials and Pavement Design, 1-13.

4. Park. B*., Zou. J., Roque. R., Lopp. G., Yan. Y. and Moseley. H. (2021).Development of Characteristic-based Guidelines to Determine Maximum Allowable Reclaimed Asphalt Pavement Content in Polymer-modified Asphalt Mixture, International Journal of Pavement Engineering, 1-14.

5. Sheng. Y., Wu. Y., Yan. Y., Jia. H., Qiao. Y., Underwood. B.S., Niu. D. and Kim. Y.R. (2020). Development of Environmentally Friendly Flame Retardant to Achieve Low Flammability for Asphalt Binder Used in Tunnel Pavements, Journal of Cleaner Production, Vol. 257

6. Yan. Y*., Hernando. D. and Roque. R. (2019). Effect of RAP and RAS on Fracture Tolerance of Virgin Asphalt Binders, ASTM Journal of Testing and Evaluation, Vol.47, No.15, pp. 3259-3274.

7. Yan. Y*., Hernando. D. and Roque. R. (2019). A Solvent Free Method to Characterize the Effect of Recycled Asphalt Shingles on Virgin Asphalt Binder, Journal of Cleaner Production, Vol.208, pp. 795-805.

8. Yan. Y*., Preti. F., Romeo. E., Lopp. G. Tebaldi. G. and Roque. R. (2018). Fracture Energy Density of Interstitial Component of Asphalt Mixtures, Materials and Structures.

9. Yan. Y*., Roque. R. and Hernando. D. (2018). Enhanced Mortar Approach to Characterize the Effect of Reclaimed Asphalt Pavement on Virgin Binder True Grade, Materials and Structures, Vol.51, Issue 41.

10. Gama. D., Yan. Y*., Rodrigues. J.K. and Roque. R. (2018). Optimizing the Use of Reactive Terpolymer, Polyphosphoric Acid and High-Density Polyethylene to Achieve Asphalt Binders with Superior Performance, Construction and Building Materials, Vol.169, pp.522-529.

11. Sheng. Y*., Zhang. B., Yan. Y., Li. H., Chen. Z. and Liu. Z. (2018). Laboratory Investigation on the Use of Bamboo Fiber in Asphalt Mixtures for Enhanced Performance, Arabian Journal for Science and Engineering, Vol.47, Issue 5, pp.4629-4638.

12. Yan. Y*., Roque. R., Hernando. D. and Chun. S. (2017). Cracking Performance Characterization of Asphalt Mixtures Containing Reclaimed Asphalt Pavement (RAP) with Hybrid Binder, Road Material and Pavement Design, Vol20, Issue 2, pp.347-366.

13. Yan. Y*., Hernando. D. and Roque. R. (2017). Fracture Tolerance of Asphalt Binder at Intermediate Temperatures, ASCE Journal of Materials in Civil Engineering, Vol.29, Issue 9.

14. Yan. Y*., Roque. R. and Hernando. D. (2017). Development of a New Methodology to Effectively Predict the Fracture Properties of RAP Mixtures, Road Material and Pavement Design, Vol.18, Supplement 4, pp.372-387.

15. Yan. Y*., Roque. R., Cocconcelli. C., Bekoe. M. and Lopp. G. (2017). Evaluation of Cracking Performance for Polymer-modified Asphalt Mixtures with High RAP Content, Road Material and Pavement Design, Vol.18, Supplement 1, pp.450-470.

16. Sheng. Y*., Zhang. B., Yan. Y., Xiong. R. and Chen. H. (2017). Effects of Phosphorus Slag Powder and Polyester Fiber on Performance Characteristics of Asphalt Binders and Resultant Mixtures, Construction and Building Materials, Vol.141, pp. 289-295.

17. Yan. Y*., Zaniewski. J. and Hernando. D. (2016). Development of A Predictive Model to Estimate Permeability of Asphalt Mixture Based on Volumetric Parameters, Construction and Building Materials, Vol.126, pp. 426-433.

18. Yan. Y*., Chun. S., Roque, R. and Kim. S. (2016). Effects of Alternative Polymer Modifications on Cracking Performance of Asphalt Binders and Resultant Mixtures, Construction and Building Materials, Vol.121, pp. 569-575.

19. Yan. Y*., Cocconcelli. C., Roque. R., Nash. T., Zou. J., Hernando. D. and Lopp. G. (2015). Performance Evaluation of Alternative Polymer-modified Asphalt Binder, Road Material and Pavement Design, Vol. 16, Supplement 1, pp. 389-403.

综述文章

1. Yan. Y. (2021). New Innovations in Pavement Materials and Engineering: A review on Pavement Engineering Research 2021, Section 2.1.3 Damage in theCharacterization of Binder Cracking Performance, Journal of Traffic and Transportation Engineering.

2. Yan. Y., Hernando. D. and Roque. R. (2017). State of the Art and Practice in Fatigue Cracking Evaluation of Asphalt Concrete Pavements: An Experimental andNumerical Synthesis from the Mid-1990s to 2016, Section 2.1.3 Binder Fracture Energy Test, Association of Asphalt Paving Technologists.

师资队伍

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严宇

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