张园
发布时间: 2023-04-30

 ▎基本信息

  • 职称:教授

  • 人才称号:国家高层次青年人才计划入选者

  • 电子邮箱:yuanzhang@scut.edu.cn

  • 办公地址:天河区五山路381号交通大楼

 ▎研究方向

绿色道路建筑材料与技术、路面结构与材料表征、功能型沥青路面、沥青再生及循环利用、沥青材料图像处理与数值模拟

 ▎学术兼职

国际材料与结构研究实验联合会RILEM技术委员会委员、美国土木工程师协会学会ASCE技术委员会委员、美国交通研究委员会TRB会员、国际路面科学与工程学会APSE会员、国际沥青路面协会ISAP会员、美国沥青路面专家协会AAPT会员、中国公路学会会员、《中国公路学报》青年编委、《Journal of Road Engineering》青年编委、《公路交通科技》青年编委、《市政技术学报》编委等

招生专业  

博士生:道路与铁道工程                           

硕士生:道路与铁道工程                             

专业学位硕士:交通运输工程                            

 ▎教育与工作经历  

教育经历                      

20104月~20156月,荷兰代尔夫特理工大学,道路与铁道工程专业,博士 

20079月~20106月,武汉理工大学,建筑材料与工程专业,硕士 

20039月~20076月,武汉理工大学,材料科学与工程专业,学士 

工作经历                          

2023年,中国科学培训与人才服务中心,高级项目主管

20214月至今,华南理工大学,土木与交通学院,教授/博导

20188月~20213月,美国威斯康星大学麦迪逊分校,土木与环境工程系,副研究员

201512月~20187月,香港理工大学,土木及环境工程学系,博士后

 ▎教学与科研情况  

  • 教学              

本科生教学:                            

讲授《路面工程》专业核心课程,《土木工程概论》基础课程,《Engineering Materials》全英课程

研究生教学:                            

讲授《路面材料科学与技术》博士生课程

  • 科研              

科研兴趣:

环境低影响功能型道路新材料与结构、低碳耐久型冷拌沥青路面材料与性能、再生沥青混合料智能配比设计方法、基于数字图像处理和数值模拟的沥青混合料性能评价方法、固废材料在道路工程中的高值化循环利用等 

科研项目:  

1. 国家自然科学基金优秀青年科学基金项目(海外),低碳道路维养及循环利用,2023/01-2025/12200万元,在研,主持

2.“珠江人才计划”引进高层次人才(青年拔尖人才),冷拌再生沥青路面,2022/12-2025/1150万元,在研,主持

3. 双一流人才队伍建设经费项目, 透水沥青混凝土预防性养护,2022/04-2025/03200万元,在研,主持 

4. 中央高校基本科研业务费重点项目,超疏水沥青路面材料与结构一体化设计及自洁净功能特性研究,2024/01-2025/1220万元,在研,主持

5. 香港研究资助局(RGC)国际合作项目, Multiscale Characterization of the Short-term and Long-term Interaction between Surface-treatment Emulsion and Porous Asphalt (PA) Mixture towards More Durable PA Road Surfaces2020/06-2022/0581万元,完成,共同主持

6. 美国联邦公路管理局(FHWA)开放课题, Long-Term Performance of Asphalt Concrete Mixed with RAP and RAS2019/01-2020/0685万元,完成,共同主持

7. 美国威斯康星州交通厅(WisDOT)基金项目, Investigation of Tack Coat Materials on Tracking Performance2017/06-2019/0171万元,完成,参与

8. 香港环境及自然保育基金会(ECF)纵向科研项目, Feasibility of Building Warm Mix Asphalt Pavements Using Synthetic Zeolite Derived from Sewage Sludge Ash2016/07-2018/0797万元,完成,参与

代表性成果
 学术论文:
  1. Zou, G., Jiao, Y., Zhang, Y.*, Yuan, Y., Yu, J., and Han, A. Research on blending and diffusion phenomena of virgin and aged asphalt during the laboratory-simulated construction stage. Construction and Building Materials, Vol. 472, 2025, 140741 (SCI, IF-7.400, JCR-Q1)

  2. Zhao, H., Zha, Q., Ma, R., Ma, W., Zhang, A., Zhang, Y.*, and Hu, N. Exploiting meta-aggregate in functional composites for a balanced permeability and strength trade-off. Construction and Building Materials, Vol. 463, 2025, 140112 (SCI, IF-7.400, JCR-Q1)

  3. Zhang, Y., Pei, K., Gao, J., Cao, Z., Yu, J., Deng, Y., and Zou, G. Effects of antioxidants on chemical and rheological properties of asphalt binders from different crude oil sources. Construction and Building Materials, Vol. 449, 2024, 138260 (SCI, IF-7.400, JCR-Q1)

  4. Yu, J., Feng, Z., Chen, Y., Yu, H., Korolev, E., Obukhova, S., ... and Zhang, Y.* Investigation of cracking resistance of cold asphalt mixture designed for ultra-thin asphalt layer. Construction and Building Materials, Vol. 414, 2024, 134941(SCI, IF-7.400, JCR-Q1)

  5. Liu, X., Zou, G., and Zhang, Y.* Research on Bridge Deck Pavement Monitoring Data Management System Based on BIM. In International Conference on Green Intelligent Transportation System and Safety, 2024, pp. 449-459. Singapore: Springer Nature Singapore.

  6. Adwani, D., Pipintakos, G., Mirwald, J., Wang, Y., Hajj, R., Guo, M., ... and Bhasin, A. Examining the efficacy of promising antioxidants to mitigate asphalt binder oxidation: insights from a worldwide interlaboratory investigation. International journal of pavement engineering, Vol. 25, Issue. 1, 2024, 2332363 (SCI, IF-4.139, JCR-Q1)

  7. Yu J., Lin Z., Zou G., Yu H., Leng Z., and Zhang Y.* Long-term performance of recycled asphalt mixtures containing high RAP and RAS. Journal of Road Engineering, Vol. 4, 2024, pp. 36-53 (SCI, JCR-Q2)

  8. Zou G., Chen Q., Jiao Y., Yuan Y., Zhang Y.*, and Yu J. Research on deicing performance of high-elastic/salt-storage asphalt mixture containing rubber particle and self-developed salt-storage filler. Construction and Building Materials, Vol. 449, 2024, 138303 (SCI, IF-7.400, JCR-Q1)

  9. Zou G., Chen Q., Zhang Y.*, Zhang D., and Yu J. Research on deicing performance and environmental impact of anti-freezing asphalt mixtures. Construction and Building Materials, Vol. 428, 2024, 136355 (SCI, IF-7.400, JCR-Q1)

  10. Xie B., Tian R., Zhao H., Ye T., Zhang Y.*, and Hu N. Controlling crack propagation in layered beams with architected lattice-reinforced composite interlayer designs. Construction and Building Materials, Vol. 426, 2024, 136174 (SCI, IF-7.400, JCR-Q1)

  11. Yu J., Zou Y., Zhang Y.*, Yu H., and Zou G. Adhesion characteristics of graphene-modified asphalt using surface-free energy method. Journal of Materials in Civil Engineering, Vol. 35, Issue. 7, April 2023 (SCI, IF-3.100, JCR-Q2)

  12. Zou F., Leng Z., Cao R., Li G., Zhang Y., and Sreeram A. Performance of zeolite synthesized from sewage sludge ash as a warm mix asphalt additive, Resources, Conservation & Recycling, Vol. 181, 2022, 106254 (SCI, IF-10.204, JCR-Q1)

  13. Zhou, X., Zhang, X., Zhang, Y., and Adhikari, S. Life cycle assessment of asphalt and cement pavements: comparative cases in Shanxi Province. Construction and Building Materials, Vol. 315, 2022, 125738 (SCI, IF-7.400, JCR-Q1)

  14. Bahia H.U., and Zhang Y. Evaluating low-temperature cracking resistance of recycled asphalt mixtures using a modified-IDEAL procedure. Proceedings of the 65th Annual Meeting of the Canadian Technical Asphalt Association (CTAA), Kelowna, Canada, November 2021

  15. Leng Z., Tan Z., Cao P., and Zhang Y. An efficient model for predicting the dynamic performance of fine aggregate matrix, Computer-Aided Civil and Infrastructure Engineering, Vol. 36, Issue 11, 2021, pp. 1467-1479 (SCI, IF-11.775, JCR-Q1)

  16. Zhou X., Moghaddam T.B., Chen M., Wu S., Zhang Y., Zhang X., Adhikari S., and Zhang X. Effects of pyrolysis parameters on physicochemical properties of biochar and bio-oil and application in asphalt. Science of the Total Environment, Vol. 780, 2021, 146448 (SCI, IF-7.963, JCR-Q1)

  17. Chen H., Zhang Y., and Bahia H.U. Modelling asphalt binder fatigue at multiple temperatures using complex modulus and the LAS test, International Journal of Pavement Engineering, Online 2021 (SCI, IF-4.139, JCR-Q1)

  18. Zhang Y.*, Swiertz D., and Bahia H.U. Use of blended binder tests to estimate performance of mixtures with high RAP/RAS content. Transportation Research Record, Vol. 2675, Issue 8, 2021, pp. 281-293 (SCI, IF-1.560, JCR-Q3)

  19. Zhang Y.* and Bahia H.U. Effects of recycling agents (RAs) on rutting resistance and moisture susceptibility of mixtures with high RAP/RAS content. Construction and Building Materials, Vol. 270, 2021, 121369 (SCI, IF-7.400, JCR-Q1)

  20. Chen H., Zhang Y.*, and Bahia H.U. Estimating asphalt binder fatigue at multiple temperatures using a simplified pseudo-strain energy analysis approach in the LAS test. Construction and Building Materials, Vol. 266, 2021, 120911 (SCI, IF-7.400, JCR-Q1)

  21. Zhang J., Huang W., Zhang Y., Cai Q., Yan C., and Lv Q. Investigation on the durability of OGFC-5 ultra-thin friction course with different mixes, Construction and Building Materials, Vol. 288, 2021, 123049 (SCI, IF-7.400, JCR-Q1)

  22. Zhou L., Huang W., Zhang Y., Lv Q., and Sun L. Mechanical evaluation and mechanism analysis of the stripping resistance and healing performance of modified asphalt–basalt aggregate combinations, Construction and Building Materials, Vol. 273, 2021, 121922 (SCI, IF-7.400, JCR-Q1)

  23. Zhang J., Huang W., Zhang Y., Yan C., Lv Q., and Guan W. Evaluation of the terminal blended crumb rubber/SBS composite modified asphalt, Construction and Building Materials, Vol. 278, 2021, 122377 (SCI, IF-7.400, JCR-Q1)

  24. Zhong H., Huang W., Yan C., Zhang Y., Lv Q., Sun L., and Liu L. Investigating binder aging during Hot In-place Recycling (HIR) of asphalt pavement, Construction and Building Materials, Vol. 276, 2021, 122188 (SCI, IF-7.400, JCR-Q1)

  25. Zhang Y.*, Chen H., and Bahia H.U. Extended aging performance of high RAP mixtures and the role of softening oils. International Journal of Pavement Engineering, Online 2021 (SCI, IF-4.139, JCR-Q1)

  26. Yan C., Huang W., Xu J., Yang H., Zhang Y.*, and Bahia H.U. Quantification of re-refined engine oil bottoms (REOB) in asphalt binder using ATR-FTIR spectroscopy associated with partial least squares (PLS) regression. Road Materials and Pavement Design, Online, 2020 (SCI, IF-3.792, JCR-Q2)

  27. Chen H., Zhang Y.*, and Bahia H.U. The role of binders in mixture cracking resistance measured by IDEAL-CT test. International Journal of Fatigue, Vol. 142, 2020, 105947 (SCI, IF-5.186, JCR-Q1)

  28. Yan C., Zhang Y.*, and Bahia H.U. Predicting rutting performance of asphalt mixture from binder properties and mixture design variables. Road Materials and Pavement Design, Vol. 23. Issue 1, 2020, pp. 62-79 (SCI, IF-3.792, JCR-Q2)

  29. Xu J., Pei J., Yan C., Zhang Y.*, and Bahia H.U. Rheology measurements of recycling oils and their aging resistance in asphalt binders. International Journal of Pavement Engineering, Online, 2020 (SCI, IF-4.139, JCR-Q1)

  30. Yan C., Zhang Y.*, and Bahia H.U. Comparison between SCB-IFIT, un-notched SCB-IFIT, and IDEAL-CT for measuring cracking resistance of asphalt mixtures. Construction and Building Materials, Vol. 252, 2020, 119060 (SCI, IF-7.400, JCR-Q1)

  31. Jiang J., Li Y., Zhang Y.*, and Bahia H.U. Distribution of mortar film thickness and its relationship to mixture cracking resistance. International Journal of Pavement Engineering, 2020 Online (SCI, IF-4.139, JCR-Q1)

  32. Qian Y., Guo F., Leng Z., Zhang Y., and Yu H. Simulation of the field aging of asphalt binders in different reclaimed asphalt (RAP) materials in Hong Kong through laboratory tests. Construction and Building Materials, Vol. 265, 2020, 120651 (SCI, IF-7.400, JCR-Q1)

  33. Zhang J., Huang W., Zhang Y., Lv Q., and Yan C. Evaluating four typical fibers used for OGFC mixture modification regarding drainage, ravelling, rutting and fatigue resistance. Construction and Building Materials, Vol. 253, 2020, 119131 (SCI, IF-7.400, JCR-Q1)

  34. Zhou L., Huang W., Zhang Y., Lv Q., Yan C, and Jiao Y. Evaluation of the adhesion and healing properties of modified asphalt binders. Construction and Building Materials, Vol. 251, 2020, 119026 (SCI, IF-7.400, JCR-Q1)

  35. Lv Q., Huang W., Zheng M., Sadek H., Zhang Y., and Yan C. Influence of gradation on asphalt mix rutting resistance measured by Hamburg Wheel Tracking test. Construction and Building Materials, Vol. 238, 2020, 117674 (SCI, IF-7.400, JCR-Q1)

  36. Yan C., Huang W., Zheng M., Zhang Y., and Lin P. Influence of aging on high content polymer modified asphalt mixture stripping, cracking and rutting performances. Road Materials and Pavement Design, Vol. 22, Issue 8, 2020, pp. 1824-1841 (SCI, IF-3.792, JCR-Q2)

  37. Chen H., Zhang Y.*, and Bahia H.U. The role of binders in cracking resistance of mixtures measured with the IFIT procedure. Proceedings of the 64th Annual Meeting of the Canadian Technical Asphalt Association (CTAA), Montreal, Canada, November 2019

  38. Li R., Leng Z, Zhang Y., and Ma X. Preparation and characterization of waterborne epoxy modified bitumen emulsion as a potential high-performance cold binder. Journal of Cleaner Production, Vol. 235, 2019, pp. 1265-1275 (SCI, IF-9.297, JCR-Q1)

  39. Yan C., Huang W., Lin P., Zhang Y., and Lv Q. Chemical and rheological evaluation of aging properties of high content SBS polymer modified asphalt. Fuel, Vol. 252, 2019, pp. 417-426 (SCI, IF-7.400, JCR-Q1)

  40. Zhang Y., Leng Z., Zou F., Wang L., Chen C.C., and Tsang D.C.W. Synthesis of zeolite A using sewage sludge ash for application in warm mix asphalt. Journal of Cleaner Production, Vol. 172, 2018, pp. 686-695 (SCI, IF-9.297, JCR-Q1)

  41. Sreeram A., Zhen L., Zhang Y., and Padhan P.K. Evaluation of RAP binder mobilisation and blending efficiency in bituminous mixtures: An approach using ATR-FTIR and artificial aggregate. Construction and Building Materials, Vol. 179, 2018, pp. 245-253 (SCI, IF-7.400, JCR-Q1)

  42. Zhang Y., Leng Z., Dong Z., Liu Z., Zhang Z., and Tan Z. Performance verification of various bulk density measurement methods for open- and gap-graded asphalt mixtures using X-ray computed tomography. Construction and Building Materials, Vol. 158, 2018, pp. 855-863 (SCI, IF-7.400, JCR-Q1)

  43. Leng Z., Zhang Z., Zhang Y., Wang Y., Yu H., and Ling T. Laboratory evaluation of electromagnetic density gauges for asphalt mixture density measurement. Construction and Building Materials, Vol. 158, 2018, pp. 1055-1064 (SCI, IF-7.400, JCR-Q1)

  44. Zhang Y., and Leng Z. Quantification of bituminous mortar ageing and its application in ravelling evaluation of porous asphalt wearing courses. Materials & Design, Vol. 119, 2017, pp. 1-11 (SCI, IF-7.991, JCR-Q1)

  45. Zhang Y.*, van de Ven M.F.C., Molenaar A.A.A., and Wu S. Assessment of effectiveness of rejuvenator on artificially aged porous asphalt concrete. Construction and Building Materials, Vol. 110, 2016, pp. 286-292 (SCI, IF-7.400, JCR-Q1)

  46. Zhang Y.*, van de Ven M.F.C., Molenaar A.A.A., and Wu S. Preventive maintenance of porous asphalt concrete using surface treatment technology. Materials & Design, Vol. 99, 2016, pp. 262-272 (SCI, IF-7.991, JCR-Q1)

  47. Zhang Y.*, van de Ven M.F.C., Molenaar A.A.A., and Wu S. Assessment of effectiveness of rejuvenators on artificially aged mortar. Journal of Materials in Civil Engineering, Vol. 28, Issue. 9, September 2016 (SCI, IF-3.100, JCR-Q2)

  48. Zhang Y.*, Liu Q., van de Ven M.F.C., Molenaar A.A.A., and Wu S. Identification of rejuvenators on porous asphalt concrete using optical microscopy and nanoindentation technology. Journal of Materials in Civil Engineering, Vol. 27, Issue 8, August 2015 (SCI, IF-3.100, JCR-Q2)

  49. Zhang Y.*, Verwaal W., van de Ven M.F.C., Molenaar A.A.A., and Wu S. Using high-resolution industrial CT scan to detect the distribution of rejuvenation products in porous asphalt concrete. Construction and Building Materials, Vol. 100, 2015, pp. 1-10 (SCI, IF-7.400, JCR-Q1)

  50. Van de Ven M.F.C., Qiu J., and Zhang Y. Increasing the functional service life of porous surfacing: Development of test methods to study the effect of rejuvenating binders, Proceedings of the 15th AAPA International Flexible Pavements Conference, Brisbane, Australia, September 2013

  51. Zhang Y.*, van de Ven M.F.C., Molenaar A.A.A., Woldekidan M.F., and Wu S. Mechanical properties of porous asphalt concrete with rejuvenators. Proceedings of the 9th International Conference on the Bearing Capacity of Roads, Railways and Airfields (BCRRA), Trondheim, Norway, June 2013

  52. Wu S., Pan P., Chen M., and Zhang Y. Analysis of characteristics of electrically conductive asphalt concrete prepared by multiplex conductive materials. Journal of Materials in Civil Engineering, Vol. 25, Issue 7, July 2013 (SCI, IF-3.100, JCR-Q2)

  53. Zhang Y.*, van de Ven M.F.C., Molenaar A.A.A., and Wu S. Increasing the service life of porous asphalt with rejuvenator, Proceedings of the 2nd International Conference on Sustainable Construction Materials: Design, Performance, and Application, Wuhan, China, October 2012

专利:

1. 张园,裴珂,邹桂莲,虞将苗,曹子萱,陈俊豪, 一种高掺量再生沥青混合料抗疲劳开裂性能的预测方法,2024/03/12,中国,ZL202310820738.1,发明专利

2. 张园,裴珂,邹桂莲,虞将苗,高佳琪,林福生, 一种沥青大应变下疲劳损伤预测混合料长期耐久性方法,2024/02/20,中国,ZL202310820024.0,发明专利

3. 张园,南红兵,邹桂莲,虞将苗,王叶飞,裴珂, 一种基于浸水汉堡车辙数据的沥青混合料性能评价方法,2024/05/17,中国,ZL202410328589.1,发明专利

4. 张园,南红兵,裴珂,王叶飞,邹桂莲,虞将苗, 一种基于组合模型的橡胶改性沥青主曲线表征方法,2024/03/08,中国,ZL202311717013.6,发明专利

5. 张园,王叶飞,裴珂,南红兵,邹桂莲,虞将苗, 一种沥青在不同温度下疲劳寿命的预测方法,2024/02/13,中国,ZL202311730215.4,发明专利

6. 张园,林福生,虞将苗,邹桂莲,裴珂,高佳琪, 一种基于材料组成及性能的沥青混合料水损害预估方法,2024/10/18,中国,ZL202410259646.5,发明专利

7. 张园,陈俊豪,虞将苗,邹桂莲,王叶飞,曹子萱, 一种利用城市污泥制备沥青混合料温拌剂的方法,2024/12/06,中国,ZL202410259642.7,发明专利

8. 张园,高佳琪,陈俊豪,虞将苗,邹桂莲, 一种基于少量沥青混合料高效简便回收沥青的方法,2025/03/28,中国,ZL202411498808.7,发明专利

9. 张园,李明亮,林福生,虞将苗,邹桂莲,一种可移动式路面构造深度激光检测装置,2024/11/15,中国,ZL202420822177.9,实用新型

10. 邹桂莲,张园,虞将苗,谢辉端,裴珂,一种沥青烟气检测装置,2023/09/08,中国,ZL202321157767.6,实用新型

11. 邹桂莲,张达民,虞将苗,张园,于华洋,一种用于评价抑冰沥青混合料与冰层粘结程度的装置,2023/10/27,中国,ZL202320909905.5,实用新型


 ▎其他 

张园教授一直在国际著名高校从事道路工程可持续材料与降碳技术相关研究,2015年博士毕业于荷兰代尔夫特理工大学道路与铁道工程专业,2015年至2018年在香港理工大学土木及环境工程系从事博士后研究工作,随后加入美国威斯康星大学麦迪逊分校改性沥青研究中心,美国国家战略公路研究计划SHRP研究中心之一,担任副研究员,2021年以海外高层次人才引进的方式加入华南理工大学道路工程系。在再生沥青材料耐久设计、温冷拌沥青材料研发、功能型沥青路面、沥青材料图像处理与数值模拟等方面取得了创新性成果。主持和参与了荷兰、美国、中国香港及我国道路工程方向科研课题10余项,研究成果发表英文学术论文50余篇、英文专著1部,授权发明专利10余件。入选国家高层次海外青年人才、广东省珠江人才计划引进高层次人才,获广东省科技进步一等奖、山西省科技进步一等奖、中国公路学会科学进步一等奖等省部级奖项。