张园
发布时间: 2021-04-27

职称:教授,博士生导师

电子邮件:yuanzhang@scut.edu.cn

办公地址:广州市天河区五山路381华南理工大学交通大楼

办公电话:13503005103

 

研究生招生:学术型博士生及硕士生(道路与铁道工程)

博士后招聘课题组热诚欢迎土木、材料、力学、及化学等相关专业博士毕业生加盟开展博士后研究工作,研究方向聚焦于绿色建造技术、建筑材料再生利用、功能型道路结构和材料、以及智能道路设计等方面。请有意向的博士生发送个人简历及两篇代表性论著至张教授邮箱取得联系。华南理工大学将为博士后提供丰厚的待遇和配套条件,薪酬待遇20-32万,租住博士后公寓,子女按学校教职工子女同等待遇办理入学,出站后可申请“预聘-长聘制”教研岗位,同等情况下优先考虑考核结果特别优秀的博士后,具体招聘启示请参考此链接:

http://www2.scut.edu.cn/hr/2019/1016/c4460a340019/page.htm

 

个人简介:

   张园,男,1984年12月,中共党员。2015年6月毕业于荷兰代尔夫特理工大学(Delft University of Technology)道路与铁道工程专业,获博士学位,师从欧洲著名道路结构专家A.A.A. Molenaar教授。2015年12月至2018年7月在香港理工大学土木及环境工程系冷真教授课题组完成博士后研究工作随后加入美国威斯康星大学麦迪逊分校(University of Wisconsin-Madison)改性沥青研究中心(Modified Asphalt Research Center)担任副研究员,与北美著名沥青改性专家Hussain U. Bahia教授合作开展沥青再生及改性沥青表征等相关研究工作。于2020年4月入职华南理工大学土木与交通学院道路工程系,担任教授至今。

   张园教授一直从事功能型柔性路面、绿色道路建造技术、及沥青材料再生等相关研究工作,在排水沥青路面设计与养护、沥青温拌及冷拌新技术、再生沥青及混合料耐久性等方向取得一些创新性研究成果;近五年(2016至今)发表SCI期刊论文30余篇(其中JCR-Q1区论文20余篇),Google Scholar学术引用500余次,H-index 指数13;近十年(2011年至今)主持/参与了欧洲、美国、以及中国香港等国际前沿道路工程科研课题十余项:如荷兰交通部(Rijkswaterstaat)资助重大专项课题“Lifespan Extending Maintenance of Porous Asphalt Wearing Courses”,香港环境及自然保育基金会(ECF)资助面上项目“Feasibility of Building Warm Mix Asphalt Pavements Using Synthetic Zeolite Derived from Sewage Sludge Ash”,美国联邦公路管理局(FHWA)资助开放研究课题“Long-Term Performance of Asphalt Concrete Mixed with RAP and RAS”等研究。同时,张园教授受邀担任美国国家自然科学基金会(NSF)函评专家,国际材料与结构研究实验联合会(RILEM)沥青物理化学特性表征技术委员会委员,世界交通运输大会(TRC)路面抗滑/路表特性技术委员会委员等相关专家委员会委员;担任International Journal of Pavement Engineering、Road Materials and Pavement Design、Transportation Research Record等10余个专业权威期刊审稿人;担任美国土木工程师协会(ASCE)、美国沥青路面专家协会(ASCE)、美国交通研究委员会(TRB)、国际沥青路面协会(ISAP)、国际材料与结构研究实验联合会(RILEM)、路面科学与工程学会(APSE)等6个国际学术组织会员

近五年代表性论著

[1] Zhang Y.*, Swiertz D., & Bahia H.U. Use of blended binder tests to estimate performance of mixtures with high Reclaimed Asphalt Pavement/Recycled Asphalt Shingles content, Transp Res Rec, Online, 2021 (SCI, IF 1.029, JCR-Q4)

[2] Zhang Y.*, & Bahia H.U. Effects of recycling agents on rutting resistance and moisture susceptibility of mixtures with high RAP/RAS content, Constr Build Mater., Vol. 270, 2021, 121369 (SCI, IF 4.419, JCR-Q1)

[3] Chen H., Zhang Y.*, & Bahia H.U. Estimating asphalt binder fatigue at multiple temperatures using a simplified Pseudo-strain energy analysis approach in the LAS test. Constr Build Mater., Vol. 266, 2021, 120911 (SCI, IF 4.419, JCR-Q1)

[4] Zhang Y.*, Chen H., & Bahia H.U. Extending aging performance of high RAP mixtures and the role of softening oils, Int. J. Pavement Eng., Online, 2021 (SCI, IF 2.298, JCR-Q2)

[5] Yan C., Huang W., Xu J., Yang H., Zhang Y.*, & 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 Mater. Pavement Des., Online, 2020 (SCI, IF 1.980, JCR-Q2)

[6] Chen H., Zhang Y.*, & Bahia H.U. The role of binders in mixture cracking resistance measured by IDEL-CT test, Int J Fatigue, Vol. 142, 2020, 105947 (SCI, IF 4.369, JCR-Q1)

[7] Yan C., Zhang Y.*, & Bahia H.U. Predicting rutting performance of asphalt mixture from binder properties and mixture design variables. Road Mater. Pavement Des., Online, 2020 (SCI, IF 1.980, JCR-Q2)

[8] Xu J., Pei J., Yan C., Zhang Y.*, & Bahia H.U. Rheology measurements of recycling oils and their aging resistance in asphalt binders. Int. J. Pavement Eng., Online, 2020 (SCI, IF 2.298, JCR-Q2)

[9] Yan C., Zhang Y.*, & Bahia H.U. Comparison between SCB-IFIT, un-notched SCB-IFIT, and IDEAL-CT for measuring cracking resistance of asphalt mixtures. Constr Build Mater., Vol. 252, 2020, 119060 (SCI, IF 4.419, JCR-Q1)

[10] Jiang J., Li Y., Zhang Y.*, & Bahia H.U. Distribution of mortar film thickness and its relationship to mixture cracking resistance. Int. J. Pavement Eng., Online, 2020 (SCI, IF 2.298, JCR-Q2)

[11] Chen H., Zhang Y.*, & 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

[12] Zhang Y., Leng Z., Zou F., Wang L., Chen S.S., & Tsang D.C.W. Synthesis of zeolite A using sewage sludge ash for application in warm mix asphalt. J. Clean. Prod., Vol. 172, 2018, pp. 686-695 (SCI, IF 7.246, JCR-Q1)

[13] Zhang Y., Leng Z., Dong Z., Liu Z., Zhang Z., & Tan Z. Performance verification of various bulk density measurement methods for open- and gap-graded asphalt mixtures using X-ray computed tomography. Constr Build Mater., Vol. 158, 2018, pp. 855-863 (SCI, IF 4.419, JCR-Q1)

[14] Zhang Y., & Leng Z. Quantification of bituminous mortar ageing and its application in ravelling evaluation of porous asphalt wearing courses. Mater. Des., Vol. 119, 2017, pp. 1-11 (SCI, IF 6.289, JCR-Q1)

[15] Zhang Y.*, van de Ven M.F.C., Molenaar A.A.A., & Wu S. Assessment of effectiveness of rejuvenator on artificially aged porous asphalt concrete. Constr Build Mater., Vol. 110, 2016, pp. 286-292 (SCI, IF 4.419, JCR-Q1)

[16] Zhang Y.*, van de Ven M.F.C., Molenaar A.A.A., & Wu S. Preventive maintenance of porous asphalt concrete using surface treatment technology. Mater. Des., Vol. 99, 2016, pp. 262-272 (SCI, IF 6.289, JCR-Q1)

[17] Zhang Y.*, van de Ven M.F.C., Molenaar A.A.A., & Wu S. Assessment of effectiveness of rejuvenators on artificially aged mortar. J. Mater. Civ. Eng., Vol. 28, Issue. 9, 2016 (SCI, IF 1.984, JCR-Q2)

其他信息请参见:

ORCID: https://orcid.org/0000-0003-0115-0599

Publons: https://publons.com/researcher/1456067/yuan-zhang/

ResearchGate: https://www.researchgate.net/profile/Yuan-Zhang-6