2012.09 - 2016.06，河海大学，交通工程，工学学士

2016.09 - 2019.06，重庆交通大学，道路与铁道工程，工学硕士

2021.11 - 2022.11，意大利米兰理工大学，土木工程，国家公派联合培养博士

2019.09 - 2023.12，西汉姆联官方网站，交通运输工程，工学博士

2023.12至今，江苏省卓越博士后，西汉姆联官方网站至善博士后

（1）复杂极端环境下铺面材料与结构延寿技术

（2）道路基础设施智能建养技术

（3）长大跨径钢桥面铺装技术

  （1）中国博士后科学基金面上项目：大跨径钢桥面铺装多模态疲劳损伤的博弈-拓扑协同优化理论研究，2025-2027，项目负责人；

  （2）西藏自治区科技计划项目：高海拔高寒地区长寿命桥面铺装关键技术研究，2025-2026，子课题负责人；

  （3）拉萨市区域协同创新专项“揭榜挂帅”项目：拉萨市强紫外线、高频冻融环境下长寿命沥青路面材料与结构关键技术研究，2025-2026，子课题负责人；

  （4）国家自然科学基金面上项目：高海拔高寒环境多因素复杂耦合下桥面铺装开裂问题研究，2022-2025，研究骨干；

  （5）中交集团科技基金科研项目：高寒强紫外线地区钢混组合梁桥面铺装结构与材料研究，2022-2025，研究骨干。

[1]     Haisheng Ren, Zhendong Qian, Tuanjie Chen, et al. Low-temperature flexural tensile performance degradation of asphalt mixture under coupled UV radiation and freeze-thaw cycles[J]. Road Materials and Pavement Design, 2025: 1-15.

[2]     Haisheng Ren, Zhendong Qian, Wei Huang, et al. Coupled effects of UV radiation and freeze–thaw cycles on the fracture behavior of asphalt concrete[J]. Theoretical and Applied Fracture Mechanics, 2024, 133: 104567.

[3]     Haisheng Ren, Zhendong Qian, Tuanjie Chen, et al. Fracture resistance of asphalt mixtures used for bridge deck pavement in high-altitude and cold regions[J]. Construction and Building Materials, 2024, 443: 137833.

[4]     Haisheng Ren, Zhendong Qian, Wei Huang, et al. Evaluation of fracture behavior in asphalt concrete through the combination of semi-circular bending test and digital image correlation technology[J]. Construction and Building Materials, 2024, 451: 138854.

[5]     Haisheng Ren, Zhendong Qian, Wu Bo, et al. Fatigue cracking characteristics of asphalt concrete for steel bridge deck pavements using an energy-based approach[J]. Construction and Building Materials, 2025, 482: 141650.

[6]     Haisheng Ren, Zhendong Qian, Tongpu Wu, et al. Correlation between high temperature performance of gussasphalt mixture for steel bridge decks and rheology of asphalt mastic[J]. Case Studies in Construction Materials, 2024, 20: e03240.

[7]     Haisheng Ren, Zhendong Qian, Weirong Huang, Huailong Li, Gang Liu. High-temperature rheological properties of waterborne epoxy asphalt emulsion mastic[J]. Construction and Building Materials, 2022, 325: 126796.

[8]     Haisheng Ren, Zhendong Qian, Weirong Huang, Huailong Li, Yang Liu. Low-temperature thermal cracking performance of waterborne epoxy asphalt emulsion mastic based on bending beam rheometer (BBR)[J]. Construction and Building Materials, 2022, 334: 127461.

[9]     Haisheng Ren, Zhendong Qian, Bin Lin, Qibo Huang, Maurizio Crispino, Misagh Ketabdari. Effect of recycled concrete aggregate features on adhesion properties of asphalt mortar-aggregate interface[J]. Construction and Building Materials, 2022, 353: 129097.

[10]  Haisheng Ren, Zhendong Qian, Weirong Huang, Qibo Huang. Evaluation of Properties and Performance Improvement Mechanism of Novel Waterborne Epoxy Modified Asphalt Emulsion with Styrene–Butadiene–Chloroprene Rubber[J]. Journal of Materials in Civil Engineering, 2022, 34(8): 04022195.

[11]  Haisheng Ren, Weirong Huang, Donglai Yang. Preparation and Investigation of Novel Diatomite-Supported Epoxy Resin–Modified Asphalt Binder[J]. Journal of Testing and Evaluation, 2019, 48(6): 4623-4635.

[12]  Haisheng Ren, Weirong Huang, Donglai Yang. Design and Performance Investigation of Drainage Ultra-Thin Wearing Course Based on Diatomite-Supported Epoxy-Modified Asphalt Mixture[J]. Journal of Testing and Evaluation, 2019, 49(4): 2563-2578.

[13]  任海生,钱振东,薄雾,黄卫.基于协同优化方法的钢桥面沥青铺装抗疲劳延寿设计研究[J].中国公路学报, 2025,1-10.

[14]  Zhendong Qian, Haisheng Ren^＊, Ya Wei. Effect of aggregate gradation and morphology on porous asphalt mixture performance[J]. Journal of Materials in Civil Engineering, 2021, 33(5): 04021055.

（1）西藏自治区高原重大基础设施智慧建造与韧性安全技术创新中心研究员

（2）《科技通报》青年编委