（1）上海复培新材料科技有限公司，H202120009，乌鲁木齐市钢箱梁桥面铺装中超高性能混凝土（UHPC）的研究与应用，2021 - 03至2022 - 9，30万元，在研，参与

（2）中央高校基本科研业务费专项资金，2242021R10078，UHPC锚固区承压机理研究与轻型预应力锚固系统研发，2021 - 01至2021 - 12，7 万元，在研，主持

（3）水文水资源与水利工程科学国家重点实验室“一带一路”水与可持续发展科技基金，2020NKMS06，混凝土内部硫酸盐侵蚀劣化机理研究，2021 - 01至2022 - 12，8 万元，在研，主持

（4）中央高校基本科研业务费专项资金，2242020R10062，含雌黄铁矿骨料制备的混凝土劣化机理研究，2020 - 01至2020 - 12，13 万元，结题，主持

（5）中央军委装备发展部，“十三五”装备预研共用技术，41424030109，*******毁伤机理研究，2018 - 11至2021 - 06，175 万元，结题，参与

（6）新加坡国防科技局，R-379-000-037-422，Assessing the Effectiveness of Ultra-high Performance Concrete Against Impact Loading，2018 - 04至2020 - 12，S$ 799,980，结题，参与

（7）美国康涅狄格州司法局& 消费者权益保护局，Investigating the Deterioration of Basement Walls Made of Concrete in CT，2015 - 08至2016 - 08，$ 100,000，结题，参与

（8）美国联邦高速公路管理局（FHWA），Development of Non-Proprietary Ultra-high Performance Concrete for the Use in Highway Bridge Sector，2012 - 01至2014 - 12，$ 200,000，结题，参与

期刊论文:

 Zhang, F.L., Zhong*, R. Parametric studies on high-velocity impact resistance of UHPC using modified K & C model. Journal of Building Engineering 2021, DOI:https://doi.org/10.1016/j.jobe.2021.103514. (In press, IF: 5.318, 中科院3区，JCR Q1).

钟锐, 张峰领. 超高性能混凝土、纤维增强高强及高延性混凝土抗侵彻性能比较[J]. 硅酸盐学报, 硅酸盐学报, 2021, 49(11): 2423 – 2434. (In press, EI, 国内机能材化学部最高级期刊)

Zhong, R., Zhang*, F.L. Resistance of Ultra-high Performance Concrete, Fiber Reinforced High Strength Concrete and Engineered Cementitious Composite Against Projectile Penetration. Journal of the Chinese Ceramics Society 2021, 49(11): 2423-2434. DOI:10.14062/j.issn.0454-5648.20210353. (In press, EI)

 Hu, Y., Zhong*, R., Meloni, M., Wang, J.Q. A Novel Shear Strength Prediction Approach for Headed Shear Studs Embedded in Ultra-high Performance Concrete (UHPC). ASCE Journal of Structural Engineering 2021. (In press, IF: 3.312, 中科院3区，JCR Q1)

 Zhang, F.L., Shedbale, A.S., Zhong, R., Poh*, L.H., Zhang, M.H.  Ultra-high Performance Concrete Subjected to High-velocity Projectile Impact: Implementation of K&C Model with Consideration ofFailure Surfaces and Dynamic Increase Factors. International Journal of Impact Engineering 2021, 155: 103907 (IF: 4.208, 中科院1区，JCR Q1)

Zhong, R., Zhang, F., Poh*, L.H., Wang, S., Le, H.T.N, Zhang, M.H. Assessing the Effectiveness of UHPFRC, FRHSC and ECC Against High Velocity Projectile Impact. Cement and Concrete Composites 2021,120: 104013. (IF: 7.586, 中科院1区，JCR Q1)

Hu, Y., Qiu, M., Chen, L., Zhong, R., Wang*, J.Q. Experimental and Analytical Study of the Shear Strength and Stiffness of Studs Embedded in High Strength Concrete. Engineering Structures 2021, 236: 111792. (IF: 4.471, 中科院1区，JCR Q1)

Shang*, X., Zhan, B., Li, J., Zhong, R. Novel Microcapsules for Internal Curing of High-performance Cementitious System. Scientific Report 2020, 10:8318. (IF: 4.380, 中科院3区，JCR Q1)

Ren*, L., Fang, Z., Zhong, R., Wang, K. Experimental and Numerical Investigations of the Seismic Performance of UHPCBox Piers. KSCE Journal ofCivil Engineering2019.23(2): 597-607. (IF: 1.515, 中科院4区，JCR Q3)

Zhong, R., Wille*, K.,Viegas, R. Material Efficiency in the Design of UHPC Paste from A Life Cycle Point of View. Construction and Building Materials 2018. 160: 505-513. (IF: 6.141, 中科院1区，JCR Q1)

Zhong, R., Wille*, K. Deterioration of Residential Concrete Foundations: the Role of Pyrrhotite-Bearing Aggregate. Cement and Concrete Composites 2018, 94: 53-61. (IF: 7.586, 中科院1区，JCR Q1)

Zhong, R., Wille*, K. Influence of Matrix and Pore System Characteristics on the Durability of Pervious Concrete. Construction and Building Materials 2018. 162: 132-141. (IF: 6.141, 中科院1区，JCR Q1)

Zhong, R., Leng*, Z., Poon, C.S. Research and Application of Pervious Concrete as A Sustainable Pavement Material: A State-of-the-Art and State-of-the-Practice Review. Construction and Building Materials 2018. 183: 544-553. (IF: 6.141, 中科院1区，JCR Q1)

Zhong, R., Hou, G.P., Qiang*, S. An Improved Composite Element Method for the Simulation of Temperature Field in Massive Concrete with Embedded Cooling Pipe. Applied Thermal Engineering 2017. 124: 1409-1417. (IF: 5.295, 中科院2区，JCR Q1)

Zhong, R., Wille*, K. Linking Pore System Characteristics to the Compressive Behavior of Pervious Concrete. Cement and Concrete Composites 2016. 70: 130-138. (IF: 7.586, 中科院1区，JCR Q1)

Zhong, R., Wille*, K. Compression Response of Normal and High Strength Pervious Concrete.Construction and Building Materials 2016. 109: 177-187. (IF: 6.141, 中科院1区，JCR Q1)

Zhong, R., Wille*, K. Equal Arc Segment Method for Averaging Data Plots Exemplified for Averaging Stress versus Strain Curves of Pervious Concrete. ASCE Journal of Materials in Civil Engineering2016. 28(1): 04015071. (IF: 3.266, 中科院3区，JCR Q2)

Zhong, R., Xu, M., Netto, R.V., Wille*, K. Influence of Pore Tortuosity on Hydraulic Conductivity of Pervious Concrete: Characterization and Modeling. Construction and Building Materials 2016. 125: 1158-1168. (IF: 6.141, 中科院1区，JCR Q1)

Zhong, R., Wille*, K. Material Design andCharacterization of High Performance Pervious Concrete. Construction and Building Materials 2015. 98: 51-60. (IF: 6.141, 中科院1区，JCR Q1)

发明专利

一种超高强度胶凝材料及其制备的高性能透水混凝土，专利号：ZL 2017 1 0083980. X.，排序：第一