张裕卿 - 东南大学

个人简介

张裕卿，东南大学青年首席教授，国家高层次青年人才。本科硕士毕业于东南大学，博士毕业于美国Texas A&M University。曾任英国阿斯顿大学高级讲师（副教授）和阿斯顿材料科学研究院院长。研究领域包括路面耦合力学理论与计算、多尺度多物理场模拟、低碳可再生路用材料、智能道路检测和数字孪生技术等。主持过国家自然科学基金、国家重点研究计划课题、英国工程与物理科学研究委员会、英国皇家工程院、英国皇家学会、英国牛顿基金、欧盟H2020计划、美国交通部西南地区大学交通中心等研究项目，其研究同时获得跨国石油沥青公司和建筑材料公司的资助。在重要国际学术期刊发表SCI论文100余篇，在重要国际学术会议发表论文或演讲40余次，任SCI期刊ASCE’s Journal of Transportation Engineering, Part B: Pavements 和Journal of Construction and Building Materials（CBM）期刊编委，任世界道路协会（PIARC）路面委员会通讯委员、英国国家沥青研究协会（NARC）管理委员会委员、国际建筑材料系统与结构联盟（RILEM）技术委员会委员、欧洲沥青技术协会（EATA）技术委员会委员，同时是中国、奥地利、英国、比利时、荷兰、波兰和沙特等国家自然科学基金专家评审人，获得德国冯卡门学者奖。教育背景 2008 – 2012 ：博士，美国 Texas A&M University，土木工程 2005 – 2007 ：硕士，东南大学，道路与铁道工程 2001 – 2005 ：学士，东南大学，土木工程工作经历 2022 – 至今：东南大学，青年首席教授 2015 – 2022：英国阿斯顿大学（Aston University)，讲师、高级讲师（副教授） 2013 – 2015：美国德克萨斯交通研究员（TTI），博士后研究员

研究领域

路面耦合力学理论与计算道路多尺度与多场模拟低碳与可再生路用材料智能道路检测和数字孪生技术

近期论文

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(1) Wang, C.*, Zhang, H., Zhang, Y. $ , Zhou, L., & Airey, G. (2025). Modelling and validating the time-temperature-ageing superposition principle in bitumen via molecular dynamics simulations. Construction and Building Materials , 481, 141609. (2) Zhou, L.*, Airey, G., Zhang, Y., & Wang, C. (2025). Decoupling oxidation and hardening in ageing: evaluation of bitumen-stone adhesion using different experimental methods. Road Materials and Pavement Design, 1-17. (3) Hu, X.*, Zhang, Y. $ , J. Guo, Y. Zhou and X. Huang (2025). Understanding the stress-dependent resilient modulus of cement-treated aggregate via discrete element modeling. Construction and Building Materials 464: 140102. (4) Luo, X., S. Cao, J. Wang, H. Li and Zhang, Y. (2025). Predicting High-Cycle Fatigue Damage in Viscoelastic Bituminous Materials Using the Time–Strain Superposition Principle. Journal of Materials in Civil Engineering 37(1): 04024462. (5) Zhou, L*., G. Airey, Zhang, Y. W. Huang and C. Wang (2025). A novel fatigue test method for bitumen-stone combinations under cyclic tension-compression loading. Materials & Design 249: 113577. (6) Zhou, L.*, G. Airey, Zhang, Y. and C. Wang (2024). Multiscale characterisation on the adhesion and selective adsorption at bitumen–mineral interface. Road Materials and Pavement Design : 1-20. (7) Zhang, H.*, G. Airey and Zhang, Y. $ (2024). Temporal Homogenization Modeling of Viscoelastic Asphalt Concretes and Pavement Structures under Large Numbers of Load Cycles. Journal of Engineering Mechanics 150(11): 04024082. (8) Wang, C.*, X. Zhou, Zhang, Y. $ H. Wang, M. Oeser and P. Liu (2024). Real-time data sensing and digital twin model development for pavement material mixing: enhancing workability and optimisation. International Journal of Pavement Engineering 25(1): 2417973. (9) Bello, M. S.*, Zhang, Y. $ , X. Wang and N. S. A. Yaro (2024). Recycling polymeric healthcare waste in asphalt pavements towards sustainable roads: A technical review. Journal of Cleaner Production : 144068. (10) Li, H.*, Zhang, Y. $ , Q. Chen, Z. Xu and X. Luo (2024). Rheological and bonding properties of aged bio-bitumen derived from slow pyrolysis of bamboo waste. Construction and Building Materials 438: 136990. (11) Wang, X. * , Zhang, Y. $ , Li, H., Wang, C., & Feng, P. (2024). Applications and challenges of digital twin intelligent sensing technologies for asphalt pavements. Automation in Construction , 164, 105480. (12) Li, H. * , Luo, X., & Zhang, Y. $ (2024). Predicting fatigue crack growth rate of cement-based and asphalt paving materials based on indirect tensile cyclic loading tests. Engineering Fracture Mechanics , 303, 110146. (13) Li, Z. * , Luo, X., Zhang, Y. $ , Zhou, X., & Wang, X. (2024). Inverse engineering stress-dependent resilient moduli of cement-treated base materials in asphalt pavements using falling weight deflectometer. International Journal of Pavement Engineering , 25(1), 2359546. (14) Li, H. * , Zhang, Y. $ , Chen, Q., Xu, Z., & Luo, X. (2024). Rheological and bonding properties of aged bio-bitumen derived from slow pyrolysis of bamboo waste. Construction and Building Materials , 438, 136990. (15) Zhou, L. * , Airey, G., Zhang, Y., Wang, C. * , & Zhong, H. (2024). Investigation of the bonding properties of bitumen using a novel modified binder bond strength test. Construction and Building Materials , 434, 136784. (16) Gao, Y. * , Liu, X., Ren, S., Assaf, E. I., Liu, P., & Zhang, Y. (2024). Nanostructure and damage characterisation of bitumen under a low cycle strain-controlled fatigue load based on molecular simulations and rheological measurements. Composites Part B: Engineering , 275, 111326. (17) Wang, J., Cao, S., Luo, X., & Zhang, Y. $ (2024). Characterizing bitumen-aggregate interfacial failures under coupled size effects of bitumen film thickness and aggregate surface roughness. Construction and Building Materials , 416, 135238. (18) Luo, X., Muttaqin, F., & Zhang, Y. $ (2024). Investigating non-petroleum-based biodegradable polymers as eco-friendly and sustainable materials in asphalt modification: A review on natural rubbers and natural oils. Journal of Cleaner Production , 140483. (19) Li, H.*, Tan, Z., Li, R., Luo, X., Zhang, Y. $ , & Leng, Z. $ (2024). Mechanistic Modeling of Fatigue Crack Growth in Asphalt Fine Aggregate Matrix under Torsional Shear Cyclic Load. International Journal of Fatigue , 178, 107999. (20) Gao, Y., Liu, X., Ren, S., Li, Y., & Zhang, Y. $ (2024). Role of surface roughness in surface energy calculation of aggregate minerals. Transportation Research Record, 2678(1), 190-201. (21) 张裕卿 , 顾章义 , 李辉 & 罗雪 .(2023). 基于开裂应变能平衡原理的纤维水泥稳定破碎卵石增韧研究 . 中国公路学报 (12),197-208.doi:10.19721/j.cnki.1001-7372.2023.12.015. (22) Liu, G., Luo, X., Zhang, Y. $ , & Li, H. (2023). Predicting fatigue damage growth in cement-treated base layer built with construction and demolition waste. Construction and Building Materials , 406, 133371. (23) Li, H.*, Luo, X., Zhang, Y . $ , & Leng, Z. $ (2023). Viscoelastic fracture mechanics-based fatigue life model in asphalt-filler composite system. Engineering Fracture Mechanics , 292, 109589. (24) Li, H.*, Tan, Z., Li, R., Luo, X., Zhang, Y. $ , & Leng, Z. $ (2023). Mechanistic Modeling of Fatigue Crack Growth in Asphalt Fine Aggregate Matrix under Torsional Shear Cyclic Load. International Journal of Fatigue , 107999. (25) Li, H.*, Ling, J., Leng, Z., Zhang, Y., & Luo, X. (2023). Nonlinear Viscoelasticity and Viscoplasticity Characteristics of Virgin and Modified Asphalt Binders. Journal of Engineering Mechanics , 149(10), 04023074. (26) Li, H.*, Luo, X., Gu, Z., Chen, Q., & Zhang, Y. $ (2023). Predicting crack growth of paving materials under indirect tensile fatigue loads. International Journal of Fatigue , 175, 107818. (27) Luo, X., Wang, H., Cao, S., Ling, J., Yang, S., & Zhang, Y. (2023). A hybrid approach for fatigue life prediction of in-service asphalt pavement. Philosophical Transactions of the Royal Society A , 381(2254), 20220174. (28) Gu, Z., Zhang, Y. $ , Luo, X. $ , Li, H., & Liu, G. (2023). Systematical calibration and validation of discrete element models for fiber reinforced cement treated aggregates. Construction and Building Materials , 392, 131832. (29) Zhang, H.*, & Zhang, Y. $ (2023). A time-temperature-ageing shift model for bitumen and asphalt mixtures based on free volume theory. International Journal of Pavement Engineering , 24(1), 2138882. Permalink . (30) Abdy, C., Zhang, Y. $ , Wang, J. $ , Cheng, Y., Artamendi, I., & Allen, B. (2023). Investigation of high-density polyethylene pyrolyzed wax for asphalt binder modification: Mechanism, thermal properties, and ageing performance. Journal of Cleaner Production , 405, 136960. (31) Liu, X., Zhang, Y., You, Z., Wang, L., & Zhou, C. (2023). Experimental Testing and Constitutive Modelling of Pavement Materials. Materials , 16(11), 4186.

学术兼职

期刊编委 Journal of Construction and Building Materails (CBM ) ASCE ' s Journal of Transportation Engineering, Part B: Pavements 专业组织委员英国高等教育学会， The UK Higher Education Academy (HEA), Fellow, ID: PR108322 国际道路联合会， International Road Federation (IRF), Fellow; 英国特许公路与交通协会， Chartered Institution of Highways & Transportation, Member, ID: P000091285 英国国家沥青研究协会，管理委员会委员， National Asphalt Research Consortium (NARC), Steering Committee Member 世界道路协会（ PIARC ） , TC4.1 路面委员会通讯委员，World Road Association, Technical Committee 4.1 Pavements, Communication Member