魏亚

职称:长聘教授、博士生导师
电话:010-62771646
邮箱:yawei@tsinghua.edu.cn
通信地址:北京清华大学新土木馆
邮编:100084

个人主页

www.thuwei.net

教育背景

2008 密歇根大学(安娜堡) 土木与环境工程系  工学博士

2000 东南大学       道路与铁道工程   工学硕士

1997 长安大学       公路与城市道路工程 工学学士

工作履历

2025-今  清华大学土木工程系,长聘教授,博士生导师

2022-2024 清华大学土木工程系,研究员,长聘副教授,博士生导师

2014-2021 清华大学土木工程系,副教授,博士生导师

2010-2013 清华大学土木工程系,讲师

2009-2010 中国工商银行总行,项目评审员

2008-2009 密歇根大学(安娜堡),博士后

2000-2001 交通部公路研究院,研究实习员

开设课程

建筑材料(英)(40030902)

建筑材料(40030352-0)

未来交通(英)(00030272-90)

奖励与荣誉

2022年,教育部科技进步一等奖,2/15

2020年,国家级人才计划奖励

2020年,中国公路学会科学技术一等奖,1/15

2019年,河南省科技进步一等奖,4/15

2019年,交通运输行业中青年科技创新领军人才

2018年,云南省科学技术进步二等奖,1/12

2015年,国家科技进步二等奖,6/15

2015年,中国公路学会科学技术一等奖,3/15

2015年,中国公路青年科技奖

2015年,中国硅酸盐学会青年科技奖

2014年,国家技术发明二等奖,5/6

研究领域

超高性能水泥基材料、智能材料研发;水泥基材料多尺度力学表征与模拟;水泥铺面结构优化设计与服役能力提升;道路传感监测与低成本、快速修复;大跨径钢桥面铺装体系力学分析与结构优化设计

学术及其他社会兼职

Journal of Highway and Transportation Research and Development, Chief Editor

Cement and Concrete Composites, Editor Assistant

ASCE Nanomechanics and Micromechanics Committee, Chair

World Transport Convention (世界交通大会),学科主席

中国公路学会道路工程分会,常务理事

车路一体智能交通全国重点实验室,学术委员会委员

Road Materials and Pavement Design, Editorial board member

International Journal of Pavement Research and Technology, Associate Editor

建筑材料学报(EI),编委

中国公路学报(EI),编委

中国硅酸盐学会测试技术分会,理事

中国公路学会道路工程分会,理事

科研项目

1.国家重点研发计划项目,交通基础设施板式结构动力韧性风险与防控理论(2025/06-2028/05),在研,主持

2.国家自然科学基金重点项目,极端环境重载水泥混凝土路面长寿命设计理论与方法(2025/01-2029/12),在研,主持

3.国家重点研发计划子课题,多尺度路面结构随机损伤模型与评价方法(2023/12-2028/11),在研,主持

4.地方政府重点研发计划课题,复杂条件超大型机场飞行区全寿命性能保障与智能管控关键技术(2023/09-2026/12),在研,主持

5.国家重点研发计划课题,传感器与公路基础设施协调耦合与工艺适配技术研究(2021.12-2024.12),结题,主持

6.国家重点研发计划子课题,重大公路基础设施安全服役性能监测智能传感器研发(2021.12-2024.12),结题,主持

7.国家自然科学基金面上项目,复杂环境、动载及高度夹杂条件下UHPC路面材料破损机理及设计方法(2021.01-2024.12),结题,主持

8.重点实验室基金,利用足尺加速加载试验装置开展智能路面材料及技术评估(2020.09-2022.09),结题,主持

9.国家重点研发计划子课题,智能道路铺装结构系统集成技术及系统设计理论体系(2019.01-2022.12),结题,主持

10.国家自然科学基金面上项目,混凝土持续加载下细观力学过程与宏观构件徐变性能综合研究(2018.01-2021.12),结题,主持

11.国家重点研发计划子课题,基于激光扫描和三维映射技术的路面桥梁关键计量测试技术与装备研究(2017.07-2020.12),结题,主持

12.重点实验室基金,高寒高海拔地区早强抗冻混凝土性能与机理研究(2017.01-2018.12),结题,主持

13.国家自然科学基金面上项目,水泥混凝土微观徐变试验与理论研究(2016.01-2019.12),结题,主持

14.交通运输部重点项目,沥青路面压电技术与设备集成研究(2014.01-2017.12),结题,主持

15.国家自然科学基金青年项目,基于C-S-H凝胶的水泥混凝土俆变机理及多级预测模型研究(2012.01-2014.12),结题,主持

学术成果

专著:

1. Wei, Y., Liang, S., Kong, W,《Mechanical Properties of Cementitious Materials at Microscale》, Springer, ISBN 978-981-19-6882-2, 2022

2. 魏亚,梁思明,封基梁《农村公路水泥混凝土路面设计施工及养护》,人民交通出版社,2019

3. 魏亚,《水泥混凝土路面设计指南》,人民交通出版社,2014

近期期刊论文:

1. Yan, Ch., and Wei, Y.*, Integrated design, performance testing, and field application of a novel MEMS acceleration sensor with long-term service life for road infrastructure monitoring, International Journal of Pavement Research and Technology, 2025, doi.org/10.1007/s42947-025-00594-5.

2. Liang, S., Luo, Y., Chen, Y., and Wei, Y.*, Minute-long creep and creep recovery of early-age cementitious materials under different compressive stress levels, ASCE Journal of Materials in Civil Engineering, 2025, 37(12): 04025430.

3. Guo, W., Wei, Y.*, Discrete element modeling on nanoindentation creep behavior of C-S-H under Berkovich and flat-tip indenters, Cement and Concrete Research, 2025, 190,107808.

4. Yan, Ch., and Wei, Y.*, Methodology for computing dynamic response of JPCP subject to moving axle load considering combined effects from pavement roughness and temperature curling, ASCE’s Journal of Transportation Engineering, Part B: Pavements, 2025, 151 (2): 04025017.

5. Liu, Y., Wei, Y.*, He, W., Huang, T., and Li, Ch, A state-of-the-art review of research on the use of calcined bauxite aggregate in civil engineering, Case Studies in Construction Materials, 2025, 22: e04188.

6. Yan, Ch., and Wei, Y.*, A methodology for detecting loss of support under PCC pavement based on real-time structural acceleration response, International Journal of Structural Stability and Dynamics, DOI: 10.1142/S0219455426500495.

7. Yan, Ch., and Wei, Y.*, A novel real-time structural acceleration-based methodology for detecting support loss under PCC pavement subjected to vehicle loading, International Journal of Pavement Engineering, 2024, 25 (1), 2434914.

8. Liu, Ch., and Wei, Y.*, Coupling performance of the interface between sensor and concrete by the double shear method, Materials and Structures, 2024, 57:201.

9. Huang, W., Kong, W., Xiao, H., Qiu, F., Wei, Y.*, A parameterized modeling method for analyzing welding residual stress in orthotropic steel deck, Advances in Engineering Software, 2024, 197, 103764.

10. Liang, S., Song, G., Luo, Y., and Wei, Y.*, Experimental and numerical simulation studies of electrical resistance of cementitious materials under varying temperature history, Construction and Building Materials, 2024, 439, 137371.

11. Cui, Y., Wei, Y.*, Effect of pore structure on the ionic thermoelectric effect of pure cement paste, Ceramics International, 2024, 50, 26558-26586.

12. Chu, C., Wang, L, Wei, Y.*, Development of a method for assessing metrological traceability in 3D pavement texture measurements, ASCE’s Journal of Transportation Engineering, Part B: Pavements, 04024036-1-8.

13. Liu, Ch., Kong, L., and Wei, Y.*, Synergistic design of mechanical properties between implantable sensor and concrete based on three-dimensional refined numerical model, Construction and Building Materials, 2024, 426, 136126.

14. Liu, Ch., and Wei, Y.*, Experimental investigation on damage of concrete beam embedded with sensor using acoustic emission and digital image correlation, Construction and Building Materials, 2024, 423, 135887.

15. Liu, Y., Wang, L., Wei, Y.*, Sun, Ch., and Xu, Y., Current research status of UHPC creep properties and the corresponding application: A review, Construction and Building Materials, 416, 2024, 135120.

16. Guo, W., Wei, Y.*, Investigation of compressive creep of calcium-silicate-hydrates (C-S-H) in hardened cement paste through micropillar testing, Cement and Concrete Research, 2024, 177, 107427.

17. Kong, W., Huang, W.*, Wei, Y. Numerical study on welding residual stress by double-sided submerged arc welding for orthotropic steel deck. Engineering Structures, 2024, 302, 117445.

18. Yan, Ch., Wei, Y.*, Dynamic response analysis of JPCP of with different roughness levels under moving axle load using a numerical methodology, Applied Science, 2023, 13, 11046.

19. Wei, Y.*, Guo, W., Ma, L., Liu, Y., and Yang, B. Materials, structure, and construction of a low-shrinkage UHPC overlay on concrete bridge deck, Construction and Building Materials, 2023, 406, 133353.

20. Kong, W., Huang, W.*, Liu,X., Wei, Y. Experimental and numerical study on welding temperature field by double-sided submerged arc welding for orthotropic steel deck. Structures, 2023, 56, 104943.

21. Liang, S., Song, G., Du, H., Li, X., Liu, J., and Wei, Y.*, Mesoscale FE analysis of thermal conductivity of steel fiber-reinforced cementitious materials considering fiber-matrix interface and pore effects, Cement and Concrete Composites, 2023, 142, 105194.

22. Chu, C., Wei, Y.*, and Wang, H. Improved 3D pavement texture reconstruction method based on interference fringe via optimizing the post-processing method, Sensors, 2023, 23, 4660.

23. Guo, W., Wei, Y.*, Ma, L., Liu, Y., and Guo, R. Effect of Grouped L-shape Rebar Connectors on the Shrinkage Behavior of UHPC Overlay Cast on Hardened NSC Substrate, Construction and Building Materials, 2023, 382, 131319.

24. Kong, W., Huang, W.*, Guo, W., Wei, Y. Modification of MEPDG rutting model based on RIOHTrack data. International Journal of Pavement Engineering, 2023, 24 (1), 2201500.

25. Wei, Y.*, Cui, Y., Wang, Y., Ionic thermoelectric effect of pure cement paste and its temperature sensing performance, Construction and Building Materials, 2023, 364, 129898.

26. Liang, S., Du, H., Liu, Y., Liu, J., and Wei, Y.*, Experimental study and mesoscale finite element modeling of elastic modulus and flexural creep of steel fiber-reinforced mortar, Construction and Building Materials, 2023, 363, 129875.

27. Huang, Wei., Liu, Ch., Guo, W., Wei, Y.*, A Surface Texture Prediction Model Based on RIOHTrack Asphalt Pavement, Applied Science, 2022, 12, 10539.

28. Liu, Y., Wei, Y.*, Ma, L., Wang, L., Restrained shrinkage behavior of internally-cured UHPC using calcined bauxite aggregate in the ring test and UHPC-concrete composite slab, Cement and Concrete Composites, 2022, 23 (11), 22073-83.

29. Guo, W., Wei, Y.*, Ma, L., Shrinkage-induced warping of UHPC overlay cast on hardened NSC substrate under various conditions, Cement and Concrete Composites, 2022, 134 (104772).

30. Liu, Ch., Wei, Y.*, Experimental study on interface performance between implantable cement-based sensor and matrix concrete, Construction and Building Materials, 354 (2022) 128316.

31. Cui, Y., Wei, Y.*, Mixed "ionic-electronic" thermoelectric effect of reduced graphene oxide reinforced cement-based composites, Cement and Concrete Composites, 2022, 128 (104442).

32. Liu, Y., Wei, Y.*, Drop-weight impact resistance of ultra-high performance concrete and the corresponding statistical analysis, ASCE’s Journal of Materials in Civil Engineering, 2022, 34(1): 04021409.

33. Guo, W., Huang, X., Zhao, L., Wei, Ya*. Transverse Cracking of Concrete Base Plate in CRTS III Ballastless Track Structure: Effects of Environmental Boundary Conditions, Applied Sciences, 2021, 11(21), 10400.

34. Liu, Y., Wei, Y.*, Internal curing efficiency and key properties of UHPC influenced by dry or prewetted calcined bauxite aggregate with different particle size, Construction and Building Materials, 312 (2021) 125406.

35. Liu, Y., Wei, Y.*, Abrasion resistance of ultra-high performance concrete with coarse aggregate, Materials and Structures, 2021, 54 (4)-157.

36. Yan, Ch., Wei, Y.*, Xiao, Y., and Wang, L., Pavement 3D data denoising algorithm based on gridded ellipsoid detection, Sensors, 2021, 21 (7), DOI10.3390/s21072310.

37. Wei, Y.*, Kong, W., and Wang, Y., Strengthening mechanism of fracture properties by nano materials for cementitious materials subject to early-age frost attack, Cement and Concrete Composites, 2021, 119 (104025).

38. Liu, Y., Wei, Y.*, Effect of calcined bauxite powder or aggregate on the shrinkage properties of UHPC, Cement and Concrete Composites, 2021, 118: 103967.

39. Wei, Y.*, Yan, C., Xiao, Y., and Wang, L., Methodology for quantifying features of early-age concrete cracking from laser scanned 3D data, Journal of Materials in Civil Engineering, 2021, 33 (7), 04021151.

40. Wei, Y.*, Kong, W., Wang, Y., and Sha, Ai, Multifunctional Application of Nanoscratch Technique to Characterize Cementitious Materials, Cement and Concrete Research, 2021, (140), 106318.

41. Kong, W., Wei, Y.*, Wang, Y., and Sha, Ai, Development of Micro and Macro Fracture Properties of Cementitious Materials Exposed to Freeze-thaw Environment at Early Ages, Construction and Building Materials, 2021 (271):121502.

42. Liu, Y., Wei, Y.*, Guo Weiqiang, Effect of filler type, fineness and shape on the properties of non-fibrous UHPC matrix, ASCE’s Journal of Materials in Civil Engineering, 2021, 33(5): 04021084.

43. Xiao, Y., Wei, Y.*, Yan, Ch., Liu, Y., Wang, L. A new data preprocessing method for 3D reconstruction of pavement. International Journal of Pavement Engineering, 2021, 22(6): 675-689. DOI: 10.1080/10298436.2019.1634270.

44. Liu, Y., Wei, Y.*, Internal curing by porous calcined bauxite aggregate in ultra-high performance concrete, ASCE’s Journal of Materials in Civil Engineering, ASCE’s Journal of Materials in Civil Engineering, 2021, 33(3): 04020497.

45. Liang, S., Wei, Y.*, Effect of water-to-cement ratio and curing age on microscopic creep and creep recovery of hardened cement pastes by microindentation, Cement and Concrete Composites, 113 (2020) 103619.

46. Huang, W., Pei, M., Liu, X., Yan, Ch, and Wei, Y.*, Nonlinear Optimization of Orthotropic Steel Deck System Based on Response Surface Methodology, Research, Doi: 10.34133/2020/1303672,2020.