魏亞

2002.9-2008.8，密歇根大學(安娜堡), 土木與環境工程系，工學博士；

1997.9-2000.3，東南大學，道路與鐵道工程，工學碩士；

1993.9-1997.7，長安大學，公路與城市道路工程，工學學士。 ^[1] 

2013.12迄今，清華大學土木工程系，副教授，長聘副教授，特別研究員，博士生導師；

2010.4-2013.11，清華大學土木工程系，講師；

2009.3-2010.3，中國工商銀行總行，項目評審員；

2008.9-2009.2，密歇根大學(安娜堡)，博士後；

2000.4-2002.5：交通部公路研究院，研究實習員。 ^[1] 

用於交通基礎設施的超高性能水泥基材料、智能材料的研發；水泥基材料多尺度力學表徵與模擬；水泥路面結構優化設計與服役能力提升；路面傳感監測與低成本、快速修復技術；大跨徑鋼橋面鋪裝體系力學分析與結構優化設計。 ^[1] 

1.國家重點研發計劃課題，傳感器與公路基礎設施協調耦合與工藝適配技術研究（2021.12-2024.12），在研，主持

2.國家重點研發計劃子課題，重大公路基礎設施安全服役性能監測智能傳感器研發（2021.12-2024.12），在研，主持

3.國家自然科學基金面上項目，複雜環境、動載及高度夾雜條件下UHPC路面材料破損機理及設計方法（2021.01-2024.12），在研，主持

4.重點實驗室基金，利用足尺加速加載試驗裝置開展智能路面材料及技術評估（2020.09-2022.09），在研，主持

5.國家重點研發計劃子課題，智能道路鋪裝結構系統集成技術及系統設計理論體系（2019.01-2022.12），在研，主持

6.國家自然科學基金面上項目，混凝土持續加載下細觀力學過程與宏觀構件徐變性能綜合研究（2018.01-2021.12），結題，主持

7.國家重點研發計劃子課題，基於激光掃描和三維映射技術的路面橋樑關鍵計量測試技術與裝備研究（2017.07-2020.12），結題，主持

8.重點實驗室基金，高寒高海拔地區早強抗凍混凝土性能與機理研究（2017.01-2018.12），結題，主持

9.國家自然科學基金面上項目，水泥混凝土微觀徐變試驗與理論研究（2016.01-2019.12），結題，主持

10.交通運輸部重點項目，瀝青路面壓電技術與設備集成研究（2014.01-2017.12），結題，主持

11.國家自然科學基金青年項目，基於C-S-H凝膠的水泥混凝土俆變機理及多級預測模型研究（2012.01-2014.12），結題，主持

12.教育部博士學科點新教師基金，經預濕處理輕細骨料提高混凝土鋪面材料抗鹽凍性機理研究（2012.01-2014.12），結題，主持 ^[1] 

1. 魏亞，梁思明，封基梁《農村公路水泥混凝土路面設計施工及養護》，人民交通出版社，2019

2. 魏亞，《水泥混凝土路面設計指南》，人民交通出版社，2014 ^[1] 

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

2.Ye, Zh., Wei, Y., Wang, W., Wang, L.* An efficient real-time vehicle monitoring method, IEEE Transactions on Intelligent Transportation System, doi: 10.1109/TITS.2022.3150224.

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

4.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.

5.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.

6.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.

7.Wang, H., Ma, J., Yang, H., Sun, F., Wei, Y., and Wang, L. *, Development of three-dimensional pavement texture measurement technique using surface structured light projection, Measurement, 2021, 185, 110003.

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

9.Yang, H., Wei, Y., Zhang, W., Ai, Y., Ye, Zh., and Wang, L. *, Development of piezoelectric energy harvester system through optimizing multiple structural parameters, Sensors, 2021, 21 (8), DOI 10.3390/s21082876.

10.Ye, Zh., Yan, G., Wei, Y., Xiao, Y., Zhou, B., Li, N. and Wang, L.*, Real-time and efficient traffic information acquisition via pavement vibration IoT monitoring system, Sensors, 2021, 21 (8), https://doi.org/10.3390/s21082679.

11.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.

12.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).

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

14.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.

15.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.

16.Yang, Z., Wei, Y., and Wang, L.* Modelling and characterizing the adhesion of parallel-grooved interface between concrete lining structure and geopolymer by wedge splitting method, Mathematical Problems in Engineering, 2020, Doi.org/10.1155/2020/2507062.

17.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.

18.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.

19.Qian, Zh. *, Ren, H., Wei, Y., Effect of aggregate gradation and morphology on porous asphalt mixture performance, ASCE’s Journal of Materials in Civil Engineering, 2021, 33(5): 04021055.

20.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.

21.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.

22.Chen, L., Qian, Zh.*, Chen, D., Wei, Y., Feasibility evaluation of a long-life asphalt pavement for steel bridge deck, Advances in Civil Engineering, 2020, https://doi.org/10.1155/2020/5890945.

23.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.

24.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.

25.Liang, S., Wei, Y.*, New insights into creep and creep recovery of hardened cement paste at micro scale, Construction and Building Materials, 2020, (248), 118724.

26.Wei, Y.*, Guo, W., Wu, Z, and Gao, X., Computed permeability for cement paste subject to freeze-thaw cycles at early ages, Construction and Building Materials, 2020, 244, 118298.

27.Liang, S., Wei, Y.*, Imperfect interface effect on creep property of hardened cement pastes: Investigation from nano to micro scales, ASCE’s Journal of Materials in Civil Engineering, 2020, 32(7): 04020173.

28.Huang, W., Pei, M., Liu, X. and Wei, Y.*, Design and construction of super-long span bridges in China: Review and future perspectives, Frontiers of Structural and Civil Engineering, 2020, 14(4):803-838.

29.Huang, W., Liang, S., Wei, Y.*, Surface deflection-based reliability analysis of asphalt pavement design, Science China Technological Science, 2020, 63 (9), 1824-1836.

30.Wei, Y.*, Guo, W., and Zhang, Q., A model for predicting evaporation from fresh concrete surface during the plastic stage, Drying Technology, 2020, 38(16): 2231-2241.

31.Liang, S., Wei, Y.*, Gao, Xiang, and Qian, Zhendong, Effect of epoxy impregnation on characterizing microstructure and micro-mechanical properties of concrete by different techniques, Journal of Materials Science, 2020, 55: 2389-2404.

32.Wu, Z., Wei, Y.*, Wang, S., Chen, J., Wang, Y. Application of X-ray micro-CT for quantifying degree of hydration of slag-blended cement paste. ASCE’s Journal of Materials in Civil Engineering, 2020, 32(3): 04020008.

33.Huang, W., Guo, W., Wei, Y.*, Prediction of paving performance for epoxy asphalt mixture by its time and time-dependent properties, ASCE’s Journal of Materials in Civil Engineering, 2020, 32(3):04020017-1-12.

34.Wei, Y.*, Liang, Siming, Gao, X., and Feng, J., Design and Construction of Low-volume Road: Experiences from China, Road Materials and Pavement Design, 2020, 21(2): 393-410.

35.Wei, Y.*, Huang, J., and Liang, S., Measurement and modeling concrete creep considering relative humidity effect, Mechanics of Time-Dependent Materials, 2020, 24: 161-177.（高被引）

36.Liang, S., Wei, Y.*, Biaxial creep of high-strength concrete at early ages assessed from restrained ring test, Cement and Concrete Composites, 104, 2019.

37.Wei, Y.*, Kong, W., Wan, Ch., and Wang, Y., The colorimetry method in assessing fire-damaged concrete, Journal of Advanced Concrete Technology, 2019, 17(6):282-294.

38.Huang, W., Guo, W., Wei, Y.*, Thermal effect on rheological properties of epoxy asphalt mixture and stress prediction for bridge deck paving, ASCE’s Journal of Materials in Civil Engineering, 2019, 31(10): 0419222.

39.Wei, Y.*, Liang, S., and Huang, J., Concrete creep modeling: Application to slabs on ground, ASCE’s Journal of Engineering Mechanics, 2019, 145(10): 04019078.

40.Wei, Y.*, Wu, Z., Yao, X., and Gao, X., Quantifying effect of later curing on pores of paste subject to early-age freeze-thaw cycles by different techniques, ASCE’s Journal of Materials in Civil Engineering, 2019, 31(8): 04019153.

41.Liang, S., Wei, Y.*, Methodology of obtaining intrinsic creep property of concrete by flexural deflection test, Cement and Concrete Composites, 2019, 97: 288-299.

42.Wei, Y.*, Gao, X., Wang, F., and Zhong, Y., Nonlinear strain distribution in a field-instrumented concrete pavement slab in response to environmental effects, Road Materials and Pavement Design, 2019, 20(2): 367-380.

43.Wei, Y.*, Wu, Z., Huang, J., and Liang, S., Comparison of compressive, tensile, and flexural creep of early-age concretes under sealed and drying conditions, Journal of Materials in Civil Engineering, 2018, 30(11): 04018289-1-13.

44.Liang, S., Wei, Y.*, Wu, Z., and Hansen, W., Performance evaluation of concrete pavement slab considering creep effect by finite element analysis, Transportation Research Record: Journal of the Transportation Research Board, 2018, 2672 (27): 65-77.

45.Gao, X., Wei, Y.*, Huang, W., Critical aspects of scanning probe microscope mapping when applied to cement pastes, Advances in Cement Research, 2018, 30(7): 293-304.

46.Liang, S., Wei, Y.*, Modeling of creep effect on moisture warping and stress developments in concrete pavement slabs, International Journal of Pavement Engineering, 2018, 19(5): 425-438.

47.Wei, Y.*, Gao, X., and Liang, S., A combined SPM/NI/EDS method to quantify properties of inner and outer C-S-H in OPC and slag-blended cement pastes, Cement and Concrete Composites, 2018, (85), 56-66.

48.Wei, Y.*, Guo, W., Liang, S., Chloride ingress in internally cured concrete under complex solution, Journal of Materials in Civil Engineering, 2018, 30 (4): 04018037-1-10. ^[1] 

1.2020年，國家級人才計劃獎勵

2.2020年，中國公路學會科學技術一等獎，1/15

3.2019年，河南省科技進步一等獎，4/15

4.2019年，交通運輸行業中青年科技創新領軍人才

5.2018年，雲南省科學技術進步二等獎，1/12

6.2016年，雲南省科學技術進步二等獎，3/12

7.2015年，國家科技進步二等獎，6/15

8.2015年，中國公路學會科學技術一等獎，3/15

9.2015年，中國公路青年科技獎

10.2015年，中國硅酸鹽學會青年科技獎

11.2014年，國家技術發明二等獎，5/6

12.2013年，中國公路學會科學技術一等獎，9/15 ^[1] 

1.Cement and Concrete Composites (SCI), Associate editor

2.ASCE Nanomechanics and Micromechanics Committee, Chair

3.World Transport Convention (世界交通大會)，學科主席

4.中國公路學會青年專家委員會，副秘書長

5.Frontiers of Structural and Civil Engineering (SCI), Editorial board member

6.Journal of Sustainable Cement-based Materials (SCI), Editorial board member

7.Road Materials and Pavement Design (SCI), Editorial board member

8.International Journal of Pavement Research and Technology (EI), Editorial board member

9.Innovations in characterization and modeling of road materials and pavements, Guest Editor

10.建築材料學報(EI)，編委

11.中國公路學報(EI)，編委

12.陸地交通氣象災害防治技術國家工程實驗室技術委員會，委員

13.中國硅酸鹽學會測試技術分會，理事

14.中國公路學會道路工程分會，理事 ^[1]