师资队伍

个人简介:

周竞洋,中共党员,工学博士,助理研究员,至善博士后,入选2022年江苏省卓越博士后计划,中国复合材料学会土木工程复合材料专业委员会委员,中国复合材料学会碳纤维复合材料分会委员,复合材料学报首届青年编委,东南大学博士后联谊会第四届理事会成员。主要研究方向为FRP拉索结构、FRP增强混凝土结构。主持国家级项目2项,省部级2项,参与国家级、省部级纵向项目以及横向课题10余项,研究成果获河南省教育厅科技成果一等奖(4/15)。以一作/通讯发表学术论文30篇(JCR一区18篇,二区2篇,EI4篇,中文核心6篇),授权发明专利3项,实用新型专利1项,公开发明专利4项,受邀国内外学术报告5次,指导研究生获第四届SAMPE学生竞赛二等奖,“大吨位FRP复合材料拉索整体式锚固理论分析”入选学术精要(20235-6月)高PCSI论文,担任Journal of Building EngineeringThin-walled StructuresEngineering Structures等高水平SCI期刊审稿人。


研究方向:

1.FRP拉索结构;

2.FRP增强混凝土结构。


学术兼职

1.中国复合材料学会土木工程复合材料专业委员会 委员

2.中国复合材料学会碳纤维复合材料分会 委员

3.复合材料学报青年编委

4. ISO/TC71及其SC1~SC8国内技术对口工作组委员

5.中国复合材料学会会员

6.江苏省复合材料学会会员



项目:

主持项目:

[1]科技部,国家重点研发计划项目子课题,海洋环境下热塑性复合材料筋长期服役性能评价与控制方法,2022-11至2025-10,50万元,在研,主持

[2]国家自然科学基金委员会,青年科学基金项目,大吨位复材拉索-锚固系统关键区域蠕变机理及全过程性能演化模拟,2023-01-01至2025-12-31,30万元,在研,主持

[3]江苏省科学技术厅,江苏省自然科学基金青年基金项目,2022-07至2025-06,20万元,在研,主持

[4]中国博士后科学基金会,中国博士后科学基金面上项目,2023-01至2024-12,8万元,在研,主持

[5]东南大学博士后科研启动费,2022-04-01至2022-12-31,5万元,结题,主持



主要参与项目:

[1]国家自然科学基金委员会,面上项目,浮式风机碳纤维复合材料系泊缆动力响应研究,2025-01-01至2028-12-31,48万元,在研,参与(与外校合作,校内排名第1,且本人获拨12万直接费)

[2]国家自然科学基金委员会,面上项目,基于随机破坏的大吨位复材拉索-锚固系统多尺度静力-疲劳损伤演化规律和可靠性设计研究,2023-01-01至2026-12-31,54万元,在研,参与

[3]科技部,国家重点研发计划项目政府间国际科技创新合作,在役钢筋混凝土桥梁抗震韧性提升关键技术研究,2024-01至2026-12,41.4万,在研,参与

[4]江苏省科学技术厅,省前沿技术研发计划,海洋浮式装备用高性能碳纤维系泊缆索技术研发,2024-09至2027-09,100万,在研,参与

[5]科技部,国家重点研发计划课题,大拉力纤维增强复合材料索、锚具、连接件及其轻量化大跨结构体系研究,2017-07至2020-06,212万元,结题,参与

[6]国家自然科学基金委员会,面上项目,51878149,FRP型材-高耐久连接一体化设计及长期荷载下损伤机理和性能研究,2019-01-01至2022-12-31,60万元,结题,参与

[7]江苏省科技厅,青年基金项目,玄武岩纤维复合材料增强混凝土板低速冲击性能及其提升方法研究,2024-07-01至2027-06-30,20万,在研,参与

[8]广州公路工程集团有限公司,横向项目,玄武岩纤维FRP在桥隧部分领域中的寿命提升关键应用技术研究,2022-12至2024-09,134.5万元,在研,参与

[9]江苏省交通工程建设局,横向项目,玄武岩纤维复合材料(BFRP)筋收费站广场混凝土路面结构耐久性提升研究及应用,2023-02至2024-08,61.215万元,在研,参与

[10]广东省隧道结构智能监控与维护企业重点实验室,横向项目,玄武岩纤维增强地聚物砂浆及增强超高性能混凝土研制,2024-02至2025-12,80万元,在研,参与



论文:

近几年代表性期刊论文:

[1] Jian Ding, Xin Wang, Zhiyuan Chen, Dengfeng Lu, Jingyang Zhou(通讯作者), Zhishen Wu. Phase field fracture simulation of early-age concrete based on chemo-thermo-hygro-mechanical theoretical framework[J]. Engineering Fracture Mechanics, 2025, 320: 111051.

[2] Kaidi Jiang, Xin Wang, Lining Ding, Shui Liu, J.Y. Richard Liew, Jingyang Zhou(通讯作者), Yahia M.S. Ali, Zhishen Wu. Experimental and analytical investigation on the flexural behavior of FRP bars reinforced composite beams with an ultra-high performance seawater sea-sand concrete permanent formworks[J]. Engineering Structures, 2025, 329: 119853.

[3] Jingyang Zhou, Haorui Xiang, Xin Wang, et al. Tensile creep rupture of glass microfiber-modified epoxy resin for anchoring FRP cables[J]. Case Studies in Construction Materials, 2025, 22, e04299.

[4] Jingyang Zhou, Caishu Cheng, Xin Wang, et al. Shear creep behavior of load transfer component for variable-stiffness fiber-reinforced polymer cable anchoring system[J]. Polymer Composites, 2025, Early Access, https://doi.org/10.1002/pc.29600

[5] Jingyang Zhou, Yongzhan Yi, Xin Wang, et al. Evaluation and prediction of long-term tensile behavior of glass fiber-reinforced polypropylene bars applied in sea-water sea-sand concrete[J]. Construction and Building Materials, 2025, 459: 139799.

[6] Jingyang Zhou, Xin Wang, Xia Liu, Jia Tao, Zhishen Wu. Investigation on the shear behavior of RC beams strengthened with BFRP grids and PCM[J]. Engineering Structures, 2025, 332: 119173.

[7] Jian Ding, Xin Wang, Zhen Sun, Shui Liu, Jingyang Zhou(通讯作者), Zhishen Wu. Research on the cracking risk index of massive concrete based on Chemo-Thermo-Hygro-Mechanical multi-field coupling model[J]. Journal of Building Engineering, 2024, 98: 111190.

[8] Jingyang Zhou, Xin Wang, Lining Ding, et al. Evaluation of the shear behavior of RC beams strengthened with prestressing BFRP grids[J]. Construction and Building Materials, 2024, 452: 138978.

[9]周竞洋,汪昕,丁里宁,等. FRP筋-变刚度夹片锚具静力性能研究[J/OL].工程科学与技术,1-14[2024-07-23].http://kns.cnki.net/kcms/detail/51.1773.TB.20240718.0913.002.html.

[10] Jingyang Zhou, Xin Wang, Lining Ding, et al.Experimental and theoretical investigations on the flexural behavior of precast concrete slabs reinforced with prestressing BFRP bars and fibers[J]. Structural Concrete, 2024: 202400057,

[11] Jingyang Zhou, Xin Wang, Jiazhan Xie, et al. A novel fiber-reinforced polymer rope: Concept design and experimental evaluation[J]. Engineering Structures, 2024, 305: 117775.

[12]周竞洋,汪昕,解加展,等.高强CFRP拉索-弯折锚固系统静力性能研究[J].中国公路学报, 2024, 37(3): 298-307.

[13] Jingyang Zhou, Xin Wang, Xia Liu, et al. Numerical and experimental evaluation of a variable-stiffness wedge anchorage for basalt-fiber-reinforced polymer tendons[J]. Engineering Structures, 2024, 304: 117684.

[14] Jingyang Zhou, Lining Ding, Xin Wang, et al. A novel fiber-reinforced polymer rope: Simulation and theoretical investigation[J]. Polymer Composites, 2024, 45(8): 7059-7073.

[15] Jingyang Zhou, Xin Wang, Chang Su, et al. Experimental investigation on the fatigue performance of multi-tendon basalt fiber reinforced polymer cable[J]. Engineering Structures, 2023, 297: 116963.

[16]周竞洋,汪昕,梁训美,等.混杂纤维发热格栅增强砂浆/混凝土板力学性能[J].南京工业大学学报(自然科学版), 2023, 45(6): 682-694.

[17] Zhou Jingyang, Wang Xin, Ding L, et al. Numerical and experimental study on large-diameter FRP cable anchoring system with dispersed tendons[J]. Buildings, 2023, 13: 92.

[18] Jingyang Zhou, Xin Wang, Zhishen Wu, et al. A large-tonnage high-strength CFRP cable anchor system: experiment and FE study[J]. Journal of Composites for Construction, 2022, 26(5): 04022053.

[19] Zhou Jingyang, Wang Xin, Peng Z, et al. Enhancement of FRP cable anchor system: optimization of load transfer component and full-scale cable experiment[J]. Journal of Composites for Construction, 2022, 26(2): 04022008.

[20] Jingyang Zhou, Xin Wang, Zheqi Peng, et al. Optimization of load transfer component for FRP cable anchor system[J]. Composite Structures, 2022, 282: 115009.

[21]周竞洋,汪昕,吴智深,等. FRP拉索锚固体系优化及其静力性能评价[J].中国公路学报, 2022, 35(2): 88-97.

[22] Zhou Jingyang, Wang Xin, Peng Z, et al. Evaluation of a large-tonnage FRP cable anchor system: Anchorage design and full-scale experiment[J]. Engineering Structures, 2022, 251: 113551.

[23] Zhou Jingyang, Wang Xin, Peng Z, et al. Failure mechanism and optimization of fiber-reinforced polymer cable-anchor system based on 3D finite element model[J]. Engineering Structures, 2021, 243: 112664.

[24] Wang Xin, Zhou Jingyang, Ding L, et al. Static behavior of circumferential stress-releasing anchor for large-capacity FRP cable[J]. Journal of Bridge Engineering, 2020, 25(1): 04019114.

[25]汪昕,周竞洋,宋进辉,等.大吨位FRP复合材料拉索整体式锚固理论分析[J].复合材料学报, 2019, 36(5): 1169-1178.



专利:

[1]周竞洋,汪昕,吴智深.树脂基纤维复合材料剪切/压缩蠕变测量装置及测量方法[P].江苏省:CN202310421531.7,2023-11-24.

[2]周竞洋,汪昕,吴智深.一种锚头模压成型装置、方法及锚头[P].江苏省:CN202310421591.9,2023-07-28.

[3]周竞洋,汪昕,吴智深.一种性能可设计的变刚度FRP拉索锚固端头及施工方法[P].江苏省:CN202310128063.4,2023-06-09.

[4]汪昕,周竞洋,吴智深.一种FRP拉索锚固方法及锚固端头[P].江苏省: CN202010981172.7,2022-04-15.

[5]汪昕,周竞洋,吴智深,朱中国,钱璐.一种缠绕式FRP拉索锚头制备方法[P].江苏省: CN201911393971.6,2022-04-12.

[6]汪昕,吴智深,周竞洋,等.大吨位FRP拉索锚固方法[P].江苏省:CN201711239653.5,2019-09-20.

[7]汪昕,周竞洋,赵虎,徐一,侯爵,孙海军,李前景.一种高耐久长寿命混凝土路面[P].江苏省:202420383994.9, 2024-02-29.

[8]王浩,吴智深,汪昕,周竞洋,陈兴芬,李翠梅,田雨.一种预应力钢筒混凝土管及其制备方法[P].河北省:CN202211070776.1,2022-12-09.


指导学生:

1.作为副导师,协助汪昕教授指导博士研究生7名,硕士研究生10名;

2.作为第二指导老师,协助汪昕教授指导本科生毕业设计6人次。