胡超，安徽黄山人，讲师，硕士研究生导师，2025年于重庆大学土木工程专业获工学博士学位，师从王宇航教授（周绪红院士团队），主要从事新型风电支撑结构及钢-混凝土组合结构等领域的研究，累计在Engineering Structures、Thin-walled structures、Journal of Constructional Steel Research等国际权威期刊上发表SCI论文20余篇，担任Journal of Energy Infrastructure期刊青年编委，参与国家重点研发计划、国家自然科学基金及企业横向课题等10余项科研项目，参编行业标准2部。作为核心研发成员，先后参与研制了首台165米级、首台叶片净空自适应及首台下风向机组的预应力钢管混凝土格构式风电塔架样机工程。获2023年第48届日内瓦国际发明展金奖、2025年能源行业核心型高价值专利 ( 技术 ) 成果、中国国际大学生创新大赛（2024）全国总决赛银奖（原互联网+）、第六届全国可再生能源竞赛全国一等奖等荣誉奖励。

学术型硕士生（081402结构工程）

专业型硕士生（085901土木工程）

2026.01-至今    福州大学，讲师

中央高校基本科研业务费(前沿科学与卡脖子关键技术专项)：大型风电机组高性能支撑结构体系研究，2022-2024年，主研

国家重点研发计划项目，300米以上风电机组斜拉索-格构式混合高塔结构动力学特性及优化设计方法研究，2024-2027年，参与

中国海装风电有限公司, 预应力钢管混凝土格构式塔架力学性能试验及设计校核，2022年，主研

金风科技股份有限公司, GWH V16概念验证机格构塔架验证服务，2023年，主研

金风科技股份有限公司, 钢管混凝土桁架式混合塔架关键技术研究与试验服务，2024年，主研

浙江华东新能科技有限公司, 预应力钢管混凝土格构式塔架体型优化和设计方法研究，2024年，主研

2023年，一种适用于大容量高轮毂风电机组的预应力钢管混凝土格构式塔架，第48届日内瓦国际发明展金奖

2025年，预应力钢管混凝土格构式风电塔架，第三届能源电力行业核心型高价值专利（技术）成果

2025年，重庆市创新能力优胜个人

2024年，博士研究生国家奖学金

2024年，中国国际大学生创新大赛总决赛银奖（原互联网+）

2024年，第六届全国大学生可再生能源优秀科技作品竞赛一等奖

2024年，“第18届(ISSF-2024)学术交流会”优秀论文奖

2024年，第十届中国研究生智慧城市技术与创意设计大赛国家二等奖

2023年，“第十届精工杯青年优秀报告”一等奖

2020年，重庆大学优秀毕业研究生

2017年，第十一届全国周培源大学生力学竞赛国家三等奖

2016年，全国大学生数学建模竞赛国家二等奖

（1）期刊论文

[1] Chao Hu, Yuhang Wang, Rui Cheng, Kaiyuan Jin, Jichun Liu, Yuan-Lin Yu. Width-to-thickness ratio limit for U-shaped steel-concrete composite beams based on classification of cross-sections: Experimental and analytical studies[J]. Thin-Walled Structures., 2025,216: 113604.

[2] Chao Hu, Rui Cheng, Yuhang Wang, Meilan Gong, Jichun Liu. Biaxial eccentric behavior of improved multi-cell T-shaped concrete-filled steel tubes[J]. Journal of Constructional Steel Research, 2025,224: 109131.

[3] Chao Hu, Rui Cheng, Yuhang Wang, Xuhong Zhou, Zihao Liu. Buckling behavior of thin-walled cold-formed steel latticed column with lacings under axial compression[J]. Thin-Walled Structures, 2024,205: 112574.

[4] Chao Hu, Yuhang Wang, Rui Cheng, Jun Luo, Meilan Gong. Design of improved multi-cell L-shaped CFST columns under compression and bending[J]. Structures, 2024,68: 107194.

[5] Chao Hu, Yuhang Wang, Rui Cheng, Jun Luo, Meilan Gong. Confinement effect and stress-strain model for concrete of multi-cell CFST column under axial compression[J]. Journal of Constructional Steel Research, 2024,221: 108865.

[6] Chao Hu, Rui Cheng, Yuhang Wang, Yang Chen, Zhou Yang, Yusen Liu. Fatigue tests and design of Q460 CHS-CHS T-joints under axial loading and in-plane bending[J]. Thin-Walled Structures, 2024,194: 111305.

[7] Chao Hu, Rui Cheng, Yuhang Wang, Jichun Liu. Design of multi-cell T-shaped concrete-filled steel tubular columns under compression and bending[J]. Journal of Constructional Steel Research, 2023,206: 107944.

[8] Chao Hu, Rui Cheng, Qilin Cheng, Jichun Liu. Study on behavior of steel hoop connections for raw bamboo members[J]. Materials, 2021,14(23): 7253.

[9] Rui Cheng, Chao Hu, Meilan Gong, Yuhang Wang. Behaviors of improved multi-cell T-shaped concrete-filled steel tubular columns under eccentric loads[J]. Journal of Constructional Steel Research, 2022,193: 107251.

[10] Kaiyuan Jin, Xuhong Zhou, Chao Hu, Yuhang Wang, Jie Mao. Study on axial tensile behavior of CFDST columns strengthened with prestressing technique[J]. Thin-Walled Structures, 2025, 113341.

[11] Yusen Liu, Yuhang Wang, Xuhong Zhou, Chao Hu, Wei Ren, Jichun Liu. Compression-bending behavior of prestressed concrete filled steel tubular tower for onshore wind turbines[J]. Thin-Walled Structures, 2025,209: 112921.

[12] Kaiyuan Jin, Xuhong Zhou, Chao Hu, Yuhang Wang, Yongsen Lan, Yang Zhou. Axial hysterestic behavior of prestressed CFDST columns for lattice-type wind turbine towers[J]. Thin-Walled Structures, 2024,205: 112565.

[13] Kaiyuan Jin, Yuhang Wang, Xuhong Zhou, Ran Deng, Chao Hu, Hao Wen. Behavior of super-sized thin-walled CFDST columns for wind turbine towers subjected to combined loads: Experiment[J]. Engineering Structures, 2024,303: 117458.

[14] Yusen Liu, Xuhong Zhou, Yuhang Wang, Chao Hu, Kaiyuan Jin, Shichao Wei, Wenyan Zeng. Compression-bending-torsion bearing performance of CFST jacket foundation for offshore wind turbines[J]. Journal of Constructional Steel Research, 2025, 232: 109609.

[15] Yusen Liu, Yuhang Wang, Xuhong Zhou, Wei Ren, Fenjie Zhang, Chao Hu. Lateral bearing capacity of self-centering prestressed concrete filled steel tubular lattice rocking tower. [J]. Journal of Constructional Steel Research, 2025, 231: 109616.

[16] Jichun Liu, Rui Cheng, Yuhang Wang, Xing Xu, Chao Hu. Flexural behavior of U-shaped steel-concrete composite beams with combined connector based on steel-bars truss[J]. Structures, 2025,75: 108666.

[17] Yusen Liu, Yuhang Wang, Xuhong Zhou, Guangzhao Wang, Chao Hu. Fatigue behavior of thin-walled concrete filled steel tubular-gusset plate T-joints with ring stiffeners subjected to axial tension load[J]. Structures, 2025,75: 108716.

[18] Kaiyuan Jin, Xuhong Zhou, Chao Hu, Kang Wang, Yuhang Wang, Haoran Xu. Tensile-compressive hysteresis performance of prestressed CFDST columns for offshore wind turbine structures[J]. Ocean Engineering, 2026,344: 123464.

[19] Jichun Liu, Yuhang Wang, Cirong Huang, Xuhong Zhou, Dongliang Zhang, Kun Fu, Chao Hu, Ziteng Peng. Experimental study of glued horizontal joints in prefabricated hybrid wind turbine towers under extreme bending-torsion ratios[J]. Engineering Structures, 2026,350: 122022.

[20] Jichun Liu, Rui Cheng, Chao Hu, Yuhang Wang, Yuanlin Yu. Experimental and numerical study on seismic behavior and width-to-thickness ratio limits of U-shaped steel-concrete composite beams under cyclic loading[J]. Thin-Walled Structures, 2026,220: 114397.

[21] Jichun Liu, Rui Cheng, Yuhang Wang, Chao Hu, Xing Xu, Yusen Liu. Cyclic loading test on seismic shear behavior of CFST column to USCC beam joints with T-shaped interior diaphragms[J]. Engineering Structures, 2026,348: 121752.

[22] Yuhang Wang, Xuhong Zhou, Xiaogang Huang, Chao Hu, Shouzhen Li, Wei Ren, Yusen Liu, Kaiyuan Jin, Kang Wang. Pouria Ayough. Analysis theory and engineering applications of steel–concrete hybrid tower structures for large wind turbines[J]. Journal of Intelligent Construction, 2025,348: 121752.

[23] 胡超, 程睿, 罗鋆, 杨溥. 多腔钢管混凝土组合L形柱压弯承载性能[J]. 工业建筑, 2024.

（2）会议论文

[1] Chao Hu, Cheng R., Qilin Cheng, Jichun Liu. Push-out experiment on a novel composite interface between raw bamboo and steel hoop[C]. 11th International Symposium on Steel Structures (ISSS-2021), Jeju, Korea, 2021.

[3] Chao Hu, Yuhang Wang, Kang Wang, Qiqi Li, Yang Zhou, Yongsen Lan. Design of joints in prestressed concrete-filled double-skin steel tubular lattice wind turbine[C]. The 2022 World Congress on Advances in Civil, Environmental, and Materials Research (ACEM22), GECE, Seoul, Korea. 2022.

[3] Chao Hu, Yuhang Wang, Kang Wang, Yang Zhou, Yongsen Lan. Design of the pre-stressed concrete-filled steel tubular lattice wind turbine tower[C]. 18th International Symposium on Tubular Structures (ISTS 18), Beijing, China, 2023: 437-442.