王旭昊(長安大學公路學院教授、博導)

愛荷華州立大學，博士研究生，道路工程及土木工程材料；

愛荷華州立大學，碩士研究生，道路工程及土木工程材料；

愛荷華州立大學，學士，土木工程。

2022年12月-至，長安大學，教授，博導；

2021年1月-至今，長安大學公路學院，機場工程系，副主任；

2018年8月-2022年12月，長安大學，副教授，博導；

2016年4月-2018年8月，美國愛荷華州立大學，助理教授；

2016年1月-2018年8月，美國國家路面混凝土科研中心，助理科學家、項目經理；

2014年5月-2015年12月，美國國家路面混凝土科研中心，博士後；

2013年1月-2014年5月，美國國家路面混凝土科研中心，實驗室主任（兼職）。

1.長安大學公路學院：《水泥與水泥混凝土（英文）》，研究生課程

2.長安大學公路學院：《道路建養新技術》，研究生課程

3.長安大學公路學院：《道路工程材料（英文）》

4.長安大學公路學院：《歐美規範釋義（雙語）》

5.長安大學公路學院：《工程力學（雙語）》

6.愛荷華州立大學客座講師：CE587-《高級混凝土技術》，2015年春季，2016年秋季

7.愛荷華州立大學客座講師：CE105-《土木工程專業概論》，2013年春季

8.愛荷華州立大學助教及實驗教員：

CE382-《混凝土材料性質及配比設計方法（本科）》，2012年春季，2013年秋季

CE584-《高級混凝土技術（研究生》），2012年秋季，2014年秋季

CE587-《高級混凝土設計及套用（研究生）》，2013年春季

1.特殊地區混凝土結構物智慧、低碳生產配合比最佳化與耐久性提升關鍵技術；

2.功能性高強度水泥混凝土質量檢控與性能預測；

3.混凝土結構快速維養、監測與修復技術；

4.綠色新材料與計算機視覺識別技術在混凝土智慧生產中的套用。

主要從事道路與機場工程領域的科學研究與工程實踐工作。聚焦嚴酷環境綠色混凝土材料低碳、智慧生產與健康服役，從服役條件複雜多變、早期病害頻發、服役壽命不足等現實問題出發，通過主持國家重點研發計畫子課題、國家自然科學基金面上和地區項目、教育部博士點基金等科技攻關項目，重點開展高寒區混凝土道/路面結構多場多尺度損傷機理、高性能混凝土低碳生產與服役性能最佳化及綠色混凝土新材料與智慧型建造等研究。

近年來，研究主要圍繞特殊地區與特殊環境下交通基礎設施建築材料面臨的科學問題與工程難題。科研期間共同主持並參與20餘項中、美國家及省部級科研項目，科研資助單位包括國家自然科學基金委員會、青海省科技廳、美國聯邦高速管理局（FHWA），美國國家科學院聯邦高速公路科研合作項目（NCHRP），美國能源部（DOE）等；發表學術論文及科研報告50餘篇，其中SCI收錄論文40餘篇，主要發表於行業Top期刊Cement and Concrete Composites, ACI Materials Journal, Construction and Building Materials等；參編美國AASHTO標準3部；授權國際、國內專利7項，登記軟體著作權1件。

【21】陸路交通基礎設施耐久性提升關鍵技術（共性關鍵技術）課題2 嚴酷環境下橋隧結構混凝土延壽與修復一體化關鍵技術，國家重點研發計畫項目子課題，主持，22/01-24/12

【20】青藏高寒區混凝土路面在荷載-凍融-除冰鹽蝕耦合作用下的損傷劣化行為研究，國家自然科學基金，主持，22/01-25/12

【19】荷載-凍融-鹽蝕耦合下高寒區混凝土路面多維損傷劣化機制研究，中國博士後科學基金70批面上資助“地區專項支持計畫”，主持，21/11-23/11

【18】鹽凍耦合作用下水泥基材料孔隙結構損傷特性及多尺度評估方法研究，陝西省自然科學基礎研究計畫，主持，21/01-22/12

【17】基於新型預製構件的機制砂高強混凝土性能最佳化關鍵技術研究，紹興市城投建築工業化製造有限公司，主持，20/06-22/06

【16】裝配式路面板塊設計和接縫數值模擬及現場試驗檢測分析，中鐵第一勘察設計院集團有限公司，共同主持，19/08-22/07

【15】基於青藏鹽蝕區混凝土結構材料抗凍融耐久性能的多尺度機理研究，國家自然科學基金，主持，19/01-23/01

【14】機制砂混凝土質量檢控與材料性能試驗研究，甘肅省交通廳，主持，19/2-21/01

【13】極端環境道路耐久性的宏細觀破壞機理與解決方案研究，甘肅路橋開放基金，主持，19/02-21/01

【12】碎石材料由於壓實導致的顆粒破碎和力學性能變化的機理研究，陝西省科技廳，第二主研，19/01-21/01

【11】納米CaCO3玄武岩纖維增強混凝土斷裂性能多尺度研究，青海省科技廳，第二主研，18/01-21/01

【10】青藏鹽蝕區混凝土結構長期服役性能的宏細觀破環機理研究，青海省科技廳，主持，18/01-20/01

【9】基於寒區鹽蝕區工程性能混凝土的配合比最佳化與耐久性的研究，中央高校基本科研業務費（領軍人才項目），主持，18/09-21/08

【8】工程性能混凝土在極端條件下的套用,美國聯邦高速公路管理局（FHWA），共同主持，17/01-22/01

【7】寒區混凝土配合比最佳化，美國明尼蘇達州交通廳，共同主持，17/08-20/07

【6】混凝土快速修復機理研究，美國愛荷華州交通廳，共同主持，17/08-20/07

【5】寒區城市道路混凝土材料配比最佳化，美國愛荷華州得梅因市，共同主持，15/07-16/07

【4】寒區城市混凝土路面路基破壞機理研究，美國愛荷華州克萊夫市，共同主持，17/07-17/10

【3】道路路面反射率量化研究，美國聯邦高速公路管理局（FHWA）,主要參與，12/08-16/11

【2】混凝土橋面板內養護機理與套用，美國俄亥俄州交通廳，主要參與，15/04-18/04

【1】新型水泥基材料對工業套用的機理研究，美國能源部，主要參與，16/01-17/12

【26】王旭昊，王亞坤，余海洋，李程，高新民，李林.凝灰岩機制砂混凝土工程性能研究及開裂風險評估[J].哈爾濱工業大學學報，2023.

【25】Wang, X.,Wang, Y., Ge,X.,Tong, B. et al.The quantitative assessment of clogging and cleaning effects on the permeability of pervious concrete. Construction and Building Materials, Vol. 335, 127455. (SCI, IF: 6.14, Q1)

【24】王旭昊，侯鑫，甘瓏，汪願，邊慶華，張久鵬.凝灰岩石粉在複合膠凝材料中的火山灰活性及水化性能評估[J].材料導報，2022，36(16).

【23】王旭昊，劉倩倩，李虎成，李程，李鵬，凌一峰.裝配式水泥混凝土路面板空心形式研究與最佳化[J].山東大學學報，2022,52(4)：139-150.

【22】王旭昊,甘瓏,余海洋,李程,高新民,張亞剛,李聯偉,邊慶華.石粉含量對C45凝灰岩機制砂混凝土性能的影響[J].矽酸鹽通報,2021,40(03):775-783+820.

【21】王旭昊,劉澤鑫,李虎成,田繼明,李程,李鵬.預製式水泥混凝土路面研究現狀及發展趨勢[J].科學技術與工程,2021,21(09):3457-3467.

【20】王旭昊,余祥晶,李程,李佳,高新民,張亞剛,李聯偉.粒料回彈模量室內試驗方法[J].科學技術與工程,2021,21(13):5201-5209.

【19】Wang, X.*, Song, P., Yu, H. et al. (2021). Extended Life Concrete Bridge Decks Utilizing Internal Curing to Reduce Cracking – Materials Characterization and Engineering Demonstration. Construction and Building Materials, Vol. 275, 122163. (SCI, IF: 6.14, Q1)

【18】Wang, X.,Lu A.*, Wang, K. Effect of interparticle action on shear thickening behavior of cementitious composites: modeling and experimental validation. Journal of Sustainable Cement-Based Materials, 2020. (SCI, Q4)

【17】Liu, Z. Lou, B., Sha, A., Du, P., Wang, X.* Microstructure Characterization of Portland Cement Pastes Influenced by Lower Curing Pressures. Construction and Building Materials, 227， 2019. (SCI, IF: 4.05, Q1)

【16】Wang, X.* Sadati, S., Taylor, P., Li, C., Wang X., Sha, A. Material Characterization to Assess Effectiveness of Surface Treatment to Prevent Joint Deterioration from Oxychloride Formation Mechanism. Cement and Concrete Composites, 104, 2019. (SCI, IF: 5.17, Q1-TOP Journal)

【15】Li, C., Ashlock, J., Wang, X.* Quantifying Repeatability Reproducibility Sources of Error and Capacity of a Measurement: Demonstrated using Laboratory Soil Plasticity Tests. Advances in Civil Engineering, Article ID 3295954, 2018. (SCI, IF: 0.83, Q3)

【14】Wang, X., Wang, XH.*, Sadati, S., Taylor, P., Wang, K. A Modified Foam Drainage Test Protocol for Assessing Incompatibility of Admixture Combinations and Stability of Air Structure in Cementitious Systems. Construction and Building Materials, 2019, 211, pp. 174-184. (SCI, IF: 4.05, Q1)

【13】Wang, X.,* Taylor, P., Yurdakul, E., Wang, X. An Innovative Approach to Concrete Mixture Proportioning. ACI Materials Journal, 2018, 115(5), pp: 749-759. (SCI, IF: 1.25, Q3)

【12】Wang, X.,* Taylor, P., Wang, X. A Novel Test to Determine the Workability of Slipform Concrete Mixtures. Magazine of Concrete Research, 2017, 69(6), pp.292-305. (SCI, IF: 1.49, Q2)

【11】Wang, X.,* Taylor, P., Wang, X. Comparison of Setting Time Measured Using Ultrasonic Wave Propagation with Saw-Cutting Times on Pavements – A Case Study. Proceedings of the11th International Conference on Concrete Pavements, 2016, pp. 113-128, San Antonio, Texas.

【10】Wang, X.,* Taylor, P., X Wang. Using A Vibrating Kelly Ball Test (VKelly Test) to Determine the Workability of Slipform Concrete Mixtures. Advances of Transportation: Infrastructure and Materials, 2016, 2, pp. 1037-1046. (SCI)

【9】Wang, X.,* Taylor, P., Wang, K., Lim, Malcolm. Monitoring of Setting Time of Self-Consolidating Concrete Using Ultrasonic Wave Propagation Method and Other Tools. Magazine of Concrete Research, 2016, 68(3), pp. 151-162. (SCI, IF: 1.49, Q2)

【8】Wang, X.,* Taylor, P., Wang, K., Morcous, G. Effects of Paste-to-Voids Volume Ratio on Performance of Self-Consolidating Concrete Mixtures. Magazine of Concrete Research, 2015, 67(14), pp. 771-785. (SCI, IF: 1.49, Q2)

【7】Wang, X.,* Taylor, P., Wang, K. Image Analysis Applications on Assessing Static Stability and Flowability of Self-Consolidating Concrete. Cement and Concrete Composites, 2015, 62, pp. 156-167.(SCI, IF: 5.17, Q1-TOP Journal)

【6】Wang, X.,* Taylor, P., Wang, K., Morcous, G. Assessing Particle Packing Based Self-Consolidating Concrete Mix Design Method. Construction and Building Materials, 2014, 70, pp. 439-452. (SCI, IF: 4.05, Q1)

【5】Wang, X.,* Wang, K., Bektas, F., and Taylor, P. Drying Shrinkage of Ternary Blend Concrete in Transportation Structures. Journal of Sustainable Cement-Based Materials, 2012, Vol. 1, No. 1-2, pp. 56-66, Taylor & Francis. (SCI)

【4】Wang, X.,* Taylor, P., Bektas, F., Wang, K., and Tikalsky P. Drying Shrinkage Behavior of Mortars Made with Ternary Blends. Transportation Research Record: Journal of the Transportation Research Board, No. 2290, Transportation Research Board of the National Academies, 2012, pp. 52-59. (SCI, IF: 0.69, Q4)

【3】Taylor, P., Wang, X.*, Brink, M. Stop Being Premature – Latest Research Looks to Strengthen Concrete Joints. Roads and Bridges, 2016, 54(9), pp. 45-47.

【2】Wang,X., Zhang, JK., Wang, X.*, Taylor, P., Wang, K., Sun, X. Exploration of Mechanisms of Joint Deterioration in Concrete Pavements regarding Interfacial Transition Zone. Advances in Civil Engineering, Article ID 3295954, 2018. (SCI, IF: 0.83, Q3)

【1】Taylor, P., Wang, X.* Workability and Setting Time for Slipform Paving Concrete Mixtures. Concrete International Magazine (CI) - American Concrete Institute, 2016, 38(8), pp. 41-48.

【26】Chen, Y., Taylor, P., Ceylan, H., Wang, X. (2021). Evaluation of Joint Activation and Joint Spacing in Concrete Overlays. Road Materials and Pavement Design, (SCI, IF:3.79, Q1)

【25】Sun, W., Wang, K., Taylor, P., Wang, X. (2021). Air Void Clustering in Concrete and Its Effect on Concrete Strength. International Journal of Pavement Engineering, (SCI, IF: 4.80, Q1)

【24】Sharma, A., Sirotiak, T.*, Wang, X., Taylor, P., Angadi, P., Payne, S. (2021). Portland Limestone Cement for Reduced Shrinkage and Enhanced Durability of Concrete. Magazine of Concrete Research. (SCI, IF: 1.49, Q2)

【23】Wu, Y., Cao, P.*, Shi, F., Liu, K., Wang, X., et al. Modeling of the Complex Modulus of Asphalt Mastic with Biochar Filler Based on the Homogenization and Random Aggregate Distribution Methods. Advances in Materials Science and Engineering, Vol. 2020, Article ID 2317420. (SCI, IF: 1.40, Q3)

【22】Sharma, A., Angadi, P., Sirotiak, T. *, Wang, X., Taylor, P., Borowicz, P., Payne, S. Characterization of Paste Microstructure for Durability Properties of Concrete. Construction and Building Materials, Vol. 248.(SCI, IF: 4.05, Q1)

【21】Dopko, M., Najimi, M., Shafei, B. *, Wang, X., Taylor, P., Phares, B. Strength and Crack Resistance of Carbon Microfiber Reinforced Concrete. ACI Material Journal, Vol. 117(2):11-23. (SCI, IF: 1.45, Q3)

【20】Ling, Y., Wang, K., Wang, X., Li, W. Prediction of engineering properties of fly ash-based geopolymer using artificial neural networks. Neural Computing and Applications 2019. (SCI, IF:4.66, Q1)

【19】Sun, X., Gao, Z., Cao, P., Zhou, C., Ling, Y., Wang, X., Zhao, Y., Diao, M. Fracture Performance and Numerical Simulation of Basalt Fiber Concrete Using Three-Point Bending Test on Notched Beam. Construction and Building Materials, Vol. 225, pp. 788-800, 2019. (SCI, IF: 4.05, Q1)

【18】Ling, Y., Wang, K.*, Wang, X., Hua, S. Effects of Mix Design Parameters on Heat of Geopolymerization, Set Time, and Compressive Strength of High Calcium Fly Ash Geopolymer. Construction and Building Materials, 2019. (SCI, IF: 4.05, Q1)

【17】Feng, Z., Su, L.*, Wan, H., Ling X., Wang, X. Three-Dimensional Finite Element Modeling for Seismic Response Analysis of Pile-Supported Bridges. Structure and Infrastructure Engineering, DOI: 10.1080/15732479.2019.1625932，2019. (SCI, IF: 1.85, Q2)

【16】Chen, Y.*, Taylor, P., Ceylan, H., Kim, S., Wang, X. Effect of Structural Design Options on Concrete Overlays Performance. International Journal of Pavement Research and Technology, 2019, 12(1), pp. 64-69. (EI)

【15】Sharma, A., Sirotiak, T.*, Wang, X., Taylor, P., Angadi, P.,Payne, S. Portland Limestone Cement for Reduced Shrinkage and Enhanced Durability of Concrete.Magazine of Concrete Research, 2019. (SCI, IF: 1.49, Q2)

【14】Amini, K.*, Wang, X., Delatte, N. Statistical Modeling of Hydraulic and Mechanical Properties of Pervious Concrete Using NDT. Journal of Materials in Civil Engineering, Vol. 30, No.6, 2018. (SCI, IF: 1.76, Q2)

【13】Bektas, F.,* Wang, X. ASR Effectiveness of Ternary Blends Using Modified Mortar-Bar Test. ASTM International, Journal of Testing and Evaluation, 2017, 45(3), pp. 1099–1104. (SCI, IF: 0.67, Q4)

【12】Bektas, F.,* Wang, X.Statistical Mixture Design of Ternary Blends for Controlling ASR. Magazine of Concrete Research, 2014, 67(2), pp. 63-70. (SCI, IF: 1.49, Q2)

【11】Lomboy, G.,* Wang, X., Wang, K. Rheological Behavior and Formwork Pressure of NC, SCC and SFSCC Mixtures. Cement and Concrete Composite, 2014, 54, pp. 110-116.(SCI, IF: 5.17, Q1-TOP Journal)

【10】Han, J.,* Wang, K., Wang, X., Monteiro, P. 2D Image Analysis Method for Evaluating Coarse Aggregate Characteristic and Distribution in Concrete. Construction and Building Materials, 2016, 127, pp.30-42.(SCI, IF: 4.05, Q1)

【9】Chen,Y.,* Wang, K.,Wang X., Zhou,W. Strength, Fracture, and Fatigue of Pervious Concrete. Construction and Building Materials, 2013, 42, pp. 97-104. (SCI, IF: 4.05, Q1)

【8】Asaad, M.,* Morcous, G., Wang, X., Taylor, P., Wang, K. Prediction of Mechanical Properties of Self-Consolidating Concrete for Cast-in-Place Bridge Construction. SCC 2016 - 8TH International RILEM Symposium on Self-Compacting Concrete Book Series: RILEM Proceedings. 2016. 100, pp: 341-351. (SCI)

【7】Zhang,P.,* Han,S., Ng,S., Wang, X. High Performance Concrete Materials with Applications in Building and Civil Engineering. Advances in Civil Engineering, 2017, Editorial Article. (SCI, IF: 0.83, Q3)

【6】Zhang, P.,* Han,S., Ng,S., Wang, X. Advanced Cementitious Building Materials with Applications in Civil Engineering. Advances in Civil Engineering, 2018, Editorial Article. (SCI, IF:0.83, Q3)

【5】Zhang,P.,* Han,S., Ng,S., Wang, X. Fiber Reinforced Concrete with Application in Civil Engineering. Advances in Civil Engineering, 2018, Editorial Article. (SCI, IF: 0.83, Q3)

【4】Dopko,M., Najimi, Shafei, B.,* Wang, X., Taylor, P., Phares, B. Assessment of Strength and Restrained Shrinkage Behaviors on Micro-Carbon Fiber Reinforced Concrete with Binary Chemical Admixtures. 2018. Submitted to ACI Material Journal.

【3】Dopko,M., Najimi,M., Shafei,B.,* Wang,X., Taylor, P., Phares, B. Flexural Performance Evaluation of Fiber Reinforced Concrete Incorporating Multiple Macro-Synthetic Fibers. 2018. Transportation Research Record: Journal of the Transportation Research Board. (SCI, IF: 0.70, Q4)

【2】Cao, P.,* Wang, X., Jin, F., Zhou CJ. Analysis for Asphalt Concrete with Basalt fiber reinforced Using the three point bending Beam and Fracture model-I. Three Point Bending Experiment. (Will submit to Materials and Design, SCI, IF: 4.36)

【1】Cao, P.,* Wang, X., Jin, F., Zhou CJ. Analysis for Asphalt Concrete with Basalt Fiber Reinforced Using Three Point Bending Beam and Fracture model: II. Cohesive and Enhanced VCCT Simulation. (Will submit to materials and design, SCI).

【17】Wang, X., Taylor, P. Assessment of Calcium Oxychloride Formation on Cylinders from CarbonCure Technologies. Technical Report, National Concrete Pavement Technology Center, 2017.

【16】Wang, X., Taylor, P., Vosoughi, P. Extended Life Concrete Bridge Decks Utilizing Internal Curing to Reduce Cracking. Interim Project Report, National Concrete Pavement Technology Center, Ames, IA, August 2016.

【15】Wang, X., Taylor, P., King, D. Development of Test Protocol for the City of West Des Moines. Technical Report, National Concrete Pavement Technology Center, Ames, IA, May 2016.

【14】Wang, X., Mack, E., Taylor, P. West Des Moines Cylinders. Consulting Lab Report. National Concrete Pavement Technology Center, 2015.

【13】Wang, X., Taylor, P. New Approach Helps Maximize Saw-Cutting Times. Transportation Engineering and Road Research Alliance (TERRA) E-News. Vol. 9, No.3, July 2015.

【12】Li, C., Wang, X., Ashlock, J., Taylor, P. City of Clive Residential Concrete Pavement Testing. Technical Report, National Concrete Pavement Technology Center, 2017.

【11】Taylor, P., Hosteng, T. Wang, X., Phares, B. Evaluation and Testing of A Light-Weight Fine Aggregate Concrete Bridge Deck in Buchanan County, Iowa. National Concrete Pavement Technology Center, Ames, IA, 2016.

【10】Morcous, G., Wang, K., Taylor, P., Assaad, M., Wang, X. Self-Consolidating Concrete for Cast-in-Place Bridge Components. National Cooperative Highway Research Program (NCHRP) Project 18-16. September, 2016.

【9】Taylor, P., Wang, X. Materials-Related Distress: Aggregates. Best Practices for Jointed Concrete Pavement. Tech Brief, Federal Highway Administration, FHWA-HIF-15-013, 2016.

【8】Taylor, P., Wang, X. Comparison of Setting Time Measured Using Ultrasonic Wave Propagation With Saw-Cutting Times on Pavements. Iowa Highway Research Board (IHRB TR-675), National Concrete Pavement Technology Center, 2015.

【7】Taylor, P., Wang, X., Yurdakul, E. A Study of Mixtures Suitable for Concrete Pavement Repairs. Technical Report TPF 5(224). National Concrete Pavement Technology Center, Ames, IA, 2015. (Under development)

【6】Taylor, P., Yurdakul, E., Wang, X., Wang, X. Concrete Pavement Mixture Design and Analysis (MDA): An Innovative Approach to Proportioning Concrete Mixtures. Technical Report TPF-5(205). National Concrete Pavement Technology Center, Ames, IA, 2015.

【5】Taylor, P., Wang, X., Wang, X. Concrete Pavement Mixture Design and Analysis (MDA): Evaluation of Foam Drainage Test to Measure Air Void Stability in Concrete. Technical Report TPF-5(205). National Concrete Pavement Technology Center, Ames, IA, 2015.

【4】Taylor, P., Wang, X., Wang, X. Concrete Pavement Mixture Design and Analysis (MDA): Development and Evaluation of Vibrating Kelly Ball Test (VKelly Test) for the Workability of Concrete. Technical Report TPF-5(205). National Concrete Pavement Technology Center, Ames, IA, 2015.

【3】Taylor, P., Wang, X.Concrete Pavement Mixture Design and Analysis (MDA): Factors Influencing Drying Shrinkage. Technical Report TPF-5(205). National Concrete Pavement Technology Center, Ames, IA, 2015.

【2】Taylor, P., Wang, X. Concrete Pavement Mixture Design and Analysis (MDA): Comparison of Setting Time Measured Using Ultrasonic Wave Propagation with Saw-Cutting Times on Pavements in Iowa. TPF 5(205), National Concrete Pavement Technology Center, 2014.

【1】Taylor, P., Tikalsky, P., Wang, K., Fick, G., Wang, X. Development of Performance Properties of Ternary Mixtures: Field Demonstrations and Project Summary. DTFH61-06-H-00011 Work Plans 12 and 19, Ames, IA, National Concrete Pavement Technology Center, 2012.

【2】AASHTO Designation TP 129 (2018). Standard Method of Test for Vibrating Kelly Ball (VKelly) Penetration in Fresh Portland Cement Concrete. Washington, D.C., USA.

【1】AASHTO Designation PP 84 (2017). Standard Practice for Developing Performance Engineered Concrete Pavement Mixtures. Washington, D.C., USA.

1.2020年01月，長安大學“長安學者”入選者

2.2018年03月，陝西省人才項目入選者

3.2017年11月，清華大學-青海大學三江源研究院（特聘）

4.2013年04月，美國混凝土協會（American Concrete Institute）學生競賽二等獎，學生指導

5.2012年12月，評估公告委員會獎（Computation Advisory Committee）, 愛荷華州立大學

6.2010年09月，美國愛荷華州註冊實習土木工程師（Engineering-in-Training）

7.2010年10月，羅森福德國際獎學金，愛荷華州立大學

8.2008-2009年，國際留學生獎學金，愛荷華州立大學

9.2009年，Magna Cum Laude Honor（GPA：3.80/4.00），愛荷華州立大學

1.國際路面混凝土協會會員(International Society for Concrete Pavement)

2.美國國家混凝土協會會員（National Concrete Consortium）

3.交通運輸研究委員會AFN40青年委員（Transportation Research Board）

4.美國土木工程協會會員（American Society of Civil Engineer）

5.美國混凝土協會會員（American Concrete Institute）

6.特邀主編：Special Issue on High Performance Building Materials and Applications in Civil Engineering, Journal of Engineering；Fiber Reinforced Concrete with Applicaiton in Civil Engineering, Advances in Civil Engineering；Advanced Cementitious Building Materials with Applications in Civil Engineering, Advances in Civil Engineering

7.行業審稿：ACI Materials Journal,Journal of ASCE Materials, Cement and Concrete Composites, Material and Structures, Journal of Transportation Engineering, Construction and Building Materials, Advances in Civil Engineering Materials, Sustainable Cement Based Materials, International Journal of Concrete Structures and Materials