法国巴黎东大学(Université Paris-Est),土木工程,博士
同济大学,桥梁与隧道工程专业,硕士
浙江工业大学,土木工程专业(交通土建方向),本科
2019年9月-至今,bw必威西汉姆联官方网站,研究员
2017年7月-2017年9月,美国加州大学圣迭哥分校(UC San Diego),访问学者
2016年9月-2018年10月,英国卡迪夫大学工公司,博士后
2013年8月-2016年8月,英国纽卡斯尔斯尔大学,博士后
2010年5月-2011年10月,法国道路与桥梁中央实验室(LCPC),玛丽居里早期研究员
2011年11月-2013年5月,法国交通及国土整治与网络研究所(IFSTTAR),玛丽居里早期研究员
2012年10月-2012年12月,瑞士洛桑联邦理工大学(EPFL),访问员工
2011年7月-2011年10月,爱尔兰都柏林大学(UCD),访问员工
桥梁缆索防火保护
桥梁结构安全评估
桥梁智慧运维(汽车荷载识别、机器视觉病害识别、疲劳损伤演化分析等)
桥梁智能建造(基于数字孪生的施工过程智能分析)
复合材料多尺度不确定性分析
结构优化设计
[1] 多尺度多源不确定性下FRP结构可靠性分析方法研究,江苏省基础研究计划项目(面上),2021-2024
[2] 内嵌梯度泡沫铝增强铝合金管耗能性能和失稳模式研究,江苏省基础研究计划项目(青年),2021-2024
[3] 微观结构及缺陷对3D打印混凝土力学性能和耐久性影响机理研究,教育部春晖计划国际合作项目,2022-2024
[4] 基于结构响应监测与交通监控视频的运营期汽车荷载模型动态评估方法研究,公路桥隧智能运维技术浙江省工程中心开放课题,2024-2025
[5] 高原铁路桥梁机制砂混凝土结构早期裂缝智能识别与影响规律分析,高速铁路轨道技术国家重点实验室开放基金课题,2023-2025
[6] 非接触涉铁桥隧工程建养监测关键技术研究,江苏省住房和城乡建设厅,2021-2023
[7] 超大跨度斜拉-悬索协作体系桥梁荷载组合方法研究,重大工程技术咨询,2024-2025
[8] 张靖皋过江通道工程锚碇安全度及荷载组合效应研究,重大工程技术咨询,2020-2021
[9] 基于移动底模的数字梁场关键技术与示范应用研究,重大工程技术咨询,2024-2026
[10] 基于数字孪生的长联多跨波形钢腹板连续梁低碳施工质量与结构安全智能分析关键技术研究,重大工程技术咨询,2023-2025
[11] 江阴大桥数字大桥样板工程病害识别算法研发技术服务合同,重大工程技术咨询,2024-2025
[12] 基于机器视觉与智能感知的桥梁交通荷载流重构系统研究,重大工程技术咨询,2024-2026
[13] 基于数字孪生的超长多跨宽幅连续梁桥智能施工关键技术研究,2022-2023
[1] 一种基于跨中边梁测点应变的桥梁动态称重方法,发明专利,已授权,2023,CN115900906B.
[2] 一种基于跨中挠度的桥梁动态称重方法,发明专利,已授权,2023,CN115752676B.
[3] 一种种小跨径桥梁车流荷载实时反算方法,发明专利,实质审查,2022,C N202210874327.6.
[4] 基于EMD的混凝土组合箱梁预拼装质量评估方法,发明专利,已授权,2023,CN113897865B
[5] 装配式桥墩柱与桩基的抱箍式混凝土连接结构及施工方法,发明专利,已授权,2023,CN114541242B
(一)桥梁缆索防火保护
[1] 周小燚,钱盛域,缪宇晨,阮欣,王浩. 车致火灾作用下桥梁拉索防火隔热层的材料与结构协同优化设计方法. 2025, 西汉姆联官方网站学报(自然科学版), 55(3): 783-789.
[2] Sheng-Yu Qian, Xiao-Yi Zhou, Lili Ren, Xinyu Wang, Yongkang Yao, Pinyi He, Jiawen Shang, Chen Gao. Fabrication of high-performance co-precursor silicon-based aerogels reinforced with surface modified and grafted carbon fibers at atmospheric pressure. 2025, Ceramics International.
[3] Zhou, X.-Y. (周小燚); Ruan, X.*; Zhang S.; Xiong W.; Ullah Z. Design optimization for thermal conductivity of plain-woven textile composites. 2021, Composite Structures, Vol. 255:112830.
[4] Zhou, X.-Y. (周小燚); Wang, W.; Xiong W. Tailoring fabric geometry of woven composites for simultaneously enhancing stiffness and thermal properties. Steel and Composite Structures, 2022.
(二)桥梁结构安全评估与智慧运维
[5] Zhou, X.-Y.(周小燚)*; Treacy, M.; Schmidt, F.; Brühwiler, E.; Toutlemonde, F.; Jacob, B. Effect on bridge load effects of vehicle transverse in-lane position: a case study. 2015, ASCE Journal of Bridge Engineering, Vol. 20(12): 04015020.
[6] Zhou, X.-Y. (周小燚)*; Schmidt, F.; Toutlemonde, F.; Jacob, B. A mixture peaks over threshold method for predicting extreme bridge traffic load effects. 2016, Probabilistic Engineering Mechanics, Vol. 43:121-131.
[7] Wang, B.; Zhou, X.-Y. (周小燚)*; de Becker, H.; Chen, A.; Schmidt, F. Macro Crack Initiation Life for Orthotropic Steel Decks Considering Weld Heterogeneity and Random Traffic Loading. 2017, Structure and Infrastructure Engineering, Vol.13(12):1639-1652.
[8] Fang, C.; Zhou, X.-Y. (周小燚)*; Osofero A.; Corradi M. Superelastic SMA Belleville washers for seismic resisting applications: experimental study and modeling strategy. 2016. Smart Materials and Structures, Vol. 25(10): 105013.
[9] Wang, B..; Zhou, X.-Y. (周小燚), Chen A. Probabilistic study on the macro-crack initiation of the rib-to-deck welded joint on orthotropic steel deck. 2020. International Journal of Fatigue.
[10] Fang, C.; Yam, M.; Zhou, X.-Y. (周小燚)*; Zhang, Y. Post-buckling resistance of gusset plate connections: behaviour, strength, and design considerations. 2015. Engineering Structures, Vol. 99:9-25.
[11] Wang, B..; de Backer, H.; Zhou, X.-Y. (周小燚), Chen A. Two-stage crack growth-based fatigue damage evaluation of orthotropic steel decks considering vehicle overload. 2020. Structure and Infrastructure Engineering.
[12] O’Brien, E. J.; Schmidt F.; Hajializadeh, D.*; Zhou, X.-Y. (周小燚); Enright, B.; Caprani, C. C.; Wilson, S.; Sheils, E. A review of probabilistic methods of assessment of load effects in bridges. 2015. Structural Safety, Vol. 55:44-56.
[13] Ruan X.; Li, Y.; Zhou, X.-Y. (周小燚), Jin, Z.; Yin, Z. Simulation method of concrete chloride ingress with mesoscopic cellular automata. 2020. Construction & Building Materials.
[14] Fang, C.*; Yam, M.; Zhou, X.-Y. (周小燚); Zhang, Y.-Y. Post-buckling resistance of gusset plate connections: behavior, strength, and design considerations. 2016. Engineering Structures, Vol. 99:9-27.
[15] An, X.-W.; Gosling, P. D.*; Zhou, X.-Y. (周小燚) Analytical structural reliability analysis of a suspended cable. 2016. Structural Safety, Vol. 58:20-30.
[16] An, X.-W.; Hou, J.-G.; Gosling, P. D.*; Dai, D.; Xiao, L.; Zhou, X.-Y. (周小燚) Improved failure mode identification and reliability estimates for electricity transmission towers. 2015. CMES, Vol. 107(1):1-25.
[17] Chao Jiang, Wen Xiong, C. S. Cai, Xiaoyi Zhou, Yanjie Zhu. Corrosion effects on the fatigue performance of high-strength bolted friction connections. 2023, International Journal of Fatigue, 167:107392.
[18] Chao Jiang, Wen Xiong, C. S. Cai, Xiaoyi Zhou, Yichen Zhu, Yanjie Zhu. Parametric study on fatigue behavior of steel friction connections in shear. 2023, Journal of Construction Steel Research, 207:107951.
[19] Junyong Zhou, Qingpeng Zhang, Tang Tang, Bin Wei, Xiaoyi Zhou, Colin C. Caprani. A novel load testing method for condition assessment of network-level highway bridges using moving artificial truck fleets in an open traffic environment. 2025, Engineering Structures, 120730.
[20] Miaomiao Xu, Xiao-Yi Zhou, Jie Shen, Deliang Ding, Sugong Cao, C. S. Cai. Performance evaluation of extreme value prediction methods for bridge traffic load effects. 2025, Advances in Bridge Engineering
[21] 吴文清,戴金希,王文炜,周小燚. 考虑界面滑移的钢-混组合连续梁负弯矩区抗裂特性试验. 桥梁建设,2022,52(4),16-23.
[22] 熊文,王仁贵,汪涛,魏乐永,周小燚. 超两千米级悬索桥重力式锚碇抗滑安全度设计方法. 中国公路学报,2024,37(4):166-175.
[23] 宋健,刘泓佚,杜永军,吴文清,周小燚. 基于混凝土组合箱梁残缺三维激光点云的自动逆向建模方法. 2022, 世界桥梁,50(1):72-78
[24] Wenqing Wu, Jinxi Dai, Liang Chen, Dan Liu, Xiaoyi Zhou. Experiment analysis on crack resistance in negative moment zone of steel-concrete composite continuous girder improved by interfacial slip. 2022, Materials, 15:8319.
(三)复合材料结构多尺度不确定分析
[25] Zhou, X.-Y. (周小燚); Gosling, P. D.*; Pearce, C. J.; Kaczmarczyk,L.; Ullah, Z. Perturbation-based stochastic multi-scale computational homogenization method for the determination of the effective properties of composite materials with random properties. 2016, Computer Methods in Applied Mechanics and Engineering, Vol. 300:84-105.
[26] Zhou, X.-Y. (周小燚); Gosling, P. D*; Pearce, C. J.; Kaczmarczyk, L.; Ullah, Z. Perturbation-based stochastic multi-scale computational homogenization method for woven textile composites. 2016, International Journal of Solids and Structures, Vol. 80:368-380.
[27] Zhou, X.-Y. (周小燚)*; Gosling, P. D.; Pearce, C. J.; Ullah, Z.; Kaczmarczyk, L. Exploiting the benefits of multi-scale analysis in reliability analysis of composite structures. 2016, Composite Structures, Vol. 155: 197-212.
[28] Zhou, X.-Y. (周小燚)*; Gosling, P. D.; Ullah, Z.; Kaczmarczyk, L; Pearce, C. J. Stochastic multi-scale finite element based reliability analysis for laminated composite structures. 2017, Applied Mathematical Modelling, Vol. 155: 197-212.
[29] Zhou, X.-Y. (周小燚)*; Gosling, P. D. Influence of stochastic variations in manufacturing defects on the mechanical performance of textile composites. 2018, Composite Structures, Vol. 194: 226-239
[30] Zhou, X.-Y. (周小燚)*; Gosling, P. D. Towards an understanding of variations in the buckling of tailored variable angle tow composite plates. 2018, Composite Structures, Vol. 203: 797-809
[31] Ulla Z.*; Zhou, X.-Y. (周小燚)*, Kaczmarczykc L.; Archera E.; McIlhaggera A.; Harkin-Jonesa E.; A unified framework for the multi-scale computational homogenisation 3D-textile composites. 2019, Composites Part B: Engineering, Vol. 167:582-598.
[32] Ulla Z.; Kaczmarczyk L.; Zhou, X.-Y. (周小燚)*; Falzon B. G.; Pearce C. J.; Hierarchical finite element-based multi-scale modelling of composite laminates. 2020, Composites Part B, Vol. 201:108321.
[33] L. Kaczmarczyk, Zahur Ullah, Karol Lewandowski, Xuan Meng, Xiao-Yi Zhou. MoFEM: An open sources, parallel finite element library. Journal of Oen Source Software, 2020, 5(45), 1441.
[34] Zhou, X.-Y. (周小燚); Wang, W.; Qian S. A review on stochastic multiscale analysis for FRP composite structures. 2022, Composite Structures, 115132.
[35] Zhou, X.-Y. (周小燚); Wang, N.; Qian S. Multi-Scale Reliability Analysis of FRP Truss Bridges with Hybrid Random and Interval Uncertainties. 2022, Composite Structures, 297:115928.
[36] Liu X., Zhou, X.-Y. (周小燚); Bangde Liu; Gao C. Multiscale modelling of plain woven composites by deep learning neural networks and its application in design optimization. Composite Structures, 1110123.
[37] Zhou, X.-Y. (周小燚); Wang, N.; Gao K; Jiang C.; Cai C. S. Bounds of mechanical properties of FRP composites with hybrid random and interval uncertainties. 2023, Thin-Walled Structures, 182:110158.
[38] Zhou, X.-Y. (周小燚); Qian, S.-Y; Wang, N.; Jiang C.; Cai C. S. A multiscale uncertainty propagation method for dynamic analysis of laminated FRP composite plates with hybrid random and interval uncertainties. 2023, Composite Structures, 321:117223.
[39] Qian, S.-Y; Zhou, X.-Y. (周小燚); Jiang C.; Wu, W.-Q. Uncertainty quantification for natural frequency and mode of variable angle tow composite plates with random and interval uncertainties. 2024, Mechanics of Advanced Materials and Structures, 2387735.
[40] Zhao, Desheng; Zhou, X.-Y. (周小燚); Wu, W.-Q. A metamodel-based multi-scale reliability analysis of FRP truss structures under hybrid uncertainties. 2024, Materials, 17, 29.
[41] Sheng-Yu Qian, Xiao-Yi Zhou, Neng-Wei Wang. A multi-scale uncertainty analysis method based on the Hermite-Chebyshev polynomials for dynamic responses of FRP composite structures with hybrid uncertainties. 2025, Composite Structures, 118713.
[42] 周小燚,王能威,汪昕,吴文清,万水. 随机-区间混合不确定性下FRP桁架桥多尺度可靠度分析. 中国公路学报. 2022, 35(2):63:75.
[43] 周小燚,钱盛域,王能威,熊文,汪昕,蔡春声. FRP工程结构多尺度不确定性分析研究进展. 中国公路学报. 2023, 36(1):97-114.
(四)结构优化设计
[44] Zhou, X.-Y. (周小燚); Ruan, X.*; Gosling, P. D. Thermal buckling optimization of variable angle tow fibre composite plates with gap/overlap free design. 2019, Composite Structures, Vol. 223: 110932
[45] Zhou, X.-Y. (周小燚)*; Du, Z.; Kim, H. A. A level-set shape metamorphosis with mechanical constraints for geometrically graded microstructures. 2019, Structural & Multidisciplinary Optimization, Vol. 60: 1-16
[46] Zhou, X.-Y. (周小燚); Ruan, X.*; Gosling, P. D. Robust design optimization of variable angle tow composite plates for maximum buckling load in the presence of uncertainties. 2019, Composite Structures, Vol. 223:110985
[47] Du, Z.*; Zhou X.-Y. (周小燚); Picelli, R.; Kim, H. A. Connecting microstructures for multiscale topology optimization with connectivity index constraints. 2018. Journal of Mechanical Design, Vol. 140 / 111417-1
[48] Wang D., Xiang C., Pan Y., Chen A., Zhou X.-Y. (周小燚); Zhang Y. A deep convolutional neural network for topology optimization with perceptible generalization ability. 2021. Engineering Optimization. 1902998.
[49] Xiang C., Wang D., Pan Y., Chen A., Zhou X.-Y. (周小燚), Zhang Y. Accelerated topology optimization design of 3D structures based on deep learning. 2022, Structural and Multidisciplinary Optimization, 65:99.
2025,欧维姆(OVM)奖教金
2024,江苏省综合交通运输学会科学技术奖,特等奖
2024,中国发明协会发明创业奖成果奖,二等奖
2023,江苏省土木建筑学会科学技术奖,二等奖
2023,江苏省优秀硕士学位论文指导教师
2023,西汉姆联官方网站优秀硕士学位论文指导教师
2022,西汉姆联官方网站优秀本科毕业论文(设计)指导教师
本科课程:结构力学I(48学时)、工程弹性力学(32学时)、交通基础设施BIM(32学时)
研究生课程:桥梁设计与人工智能(16学时)、交通基础设施人工智能基础(48学时)
桥梁智能检测联盟,副秘书长
学术期刊《城市道桥与防洪》青年编委
学术期刊《Sustainabie Structure》青年编委
教育部人才计划评审专家
教育部学位中心评审专家
教育部高等公司科学研究发展中心评审专家
国内外40余本学术期刊审稿专家
博士研究生
2025级:张哲
2024级:Jean Claude Suriga (职工)
2023级:包锋玲
2022级:张志勇
2021级:钱盛域
硕士研究生
2025级:夏宇轩、郑旺
2024级:胡伊琳、李嘉
2023级:缪宇晨
2022级:刘易(现工作单位:中国电建集团中南勘测设计研究院有限公司)
2021级:杨振洲(招商银行)
2020级:高成林(协助指导,现工作单位:华为南京研究院)
2019级:王能威(山东高速工程检测有限公司、2023年江苏省优秀硕士学位论文)
本科毕业设计或SRTP
2021级:郑旺(西汉姆联官方网站读研)、宋颂
2020级:胡伊琳(西汉姆联官方网站读研)、陈浩然
2019级:缪宇晨(西汉姆联官方网站读研)、谢杨凯(西汉姆联官方网站读研)、刘晨澜、黄懿茗
2018级:许炜冬(西汉姆联官方网站读研、2022年西汉姆联官方网站优秀本科毕业设计)、付楷森(同济大学读研)
2017级:余晓虎(同济大学读研)、曾泓周(同济大学读研)、傅子建(同济大学读研)、张颐南(蒙纳士大学读研)
地址:江苏省南京市江宁区西汉姆联官方网站路2号bw必威西汉姆联官方网站
邮编:211189
邮箱:seutc_official@126.com
