- [11] Shanshan Luo, Wen Li*, Zhanbiao Chen, Xinyan Guo, Dongyang Li, Jiaxiang Lin, Peiyan Huang*. A simplified fatigue model for CFRP-strengthened RC beams under the coupling action of hot-wet/salt environment and cyclic loading, International Journal of Fatigue, 2024, 187: 108444.,,.
- [12] Yu Ling, Xiafei Zhang, Yanwei Wu, Weiyu Zou, Chuang Wang, Chaosen Li, Wen Li*. Evaluation of Bonding Behavior between Engineered Geopolymer Composites with Hybrid PE/PVA Fibers and Concrete Substrate. Materials 2024, 17: 3778.,,.
- [13] Zhibin Li, Jiaqi Tan, Ji Ouyang, Yongxin Yu, Shibin Li, Taoxin Lin, Runan Liu, Wen Li*. Experimental Investigation of the Bond Performance at the Interface between Engineered Geopolymer Composites and Existing Concrete. Buildings, 2024, 14: 1819.,,.
- [14] 李稳; 陈蔚; 汤立群; 蒋震宇; 刘泽佳; 刘逸平 ; 基于纤维束/环氧树脂复合材料试验的单向层合板横向拉伸强度预测方法, 复合材料学报, 2018, 35(2): 340-346.,,.
- [15] 李稳; 陈蔚; 汤立群; 蒋震宇; 刘泽佳; 刘逸平; 基于纤维束增强树脂基复合材料测试的单向层合板层间剪切性能的预估方法, 复合材料学报, 2018, 35(10):2793-2803.,,.
- [16] Zhanbiao Chen, Peiyan Huang, Guowen Yao, Xinyan Guo, Yi Yang, Wen Li, Bo Wu. Experimental study on fatigue performance of RC beams strengthened with CFRP under variable amplitude overload and hot-wet environment, Composite Structures, 2020, 244: 112308,,.
- [17] Jiaohao Bai; Yi Yang; Peiyan Huang; Xinyan Guo; Zhanbiao Chen; Roman Wan-Wendner; Wen Li; Durability of CFRP strengthened RC beam after six years exposure to natural hygrothermal environment with sustained loads. International Journal of Fatigue. 2023:108126.,,.
- [18] Yilin Wang, Roman Wan-Wendner, Ruonan Zhang, Wen Li, Xinyan Guo. Investigation of fatigue behavior in prestressed CFRP reinforced RC beams exposed to natural subtropical environment. International Journal of Fatigue. 2025,193:108802.,,.
- [19] Chihui Huang, Ruonan Zhang, Jinguang Zhang, Xinyan Guo, Lian Wang, Peiyan Huang, Wen Li, Yilin Wang. A novel method for fatigue design of FRP-strengthened RC beams based on machine learning. Composite Structures. 2025,359:118867.,,.
- [20] 廖焕臣,李稳,蒋震宇,等.三类典型纳米增强相对多尺度复合材料界面黏结性能影响的力学模型[J].复合材料学报,2021,38(11):3714-3725.,,.