土木工程系
电子邮件:zhaobing@sjtu.edu.cn
通讯地址:上海市闵行区东川路800号伟德bv国际体育木兰船建大楼A309a室
【工作经历】
2021.06-今:伟德bv国际体育,bevictor伟德,土木工程系,长聘教轨副教授
2019.04-2021.03:哈佛大学,工程与应用科学公司,材料科学与机械工程系,博士后
2016.11-2021.05:伟德bv国际体育,航空航天公司,控制科学与工程流动站,博士后
【教育背景】
2012.02-2016.12:伟德bv国际体育,bevictor伟德,土木工程系,博士
2009.09-2012.03:伟德bv国际体育,bevictor伟德,土木工程系,硕士
2005.09-2009.07:厦门大学,建筑与土木工程公司,土木工程系,学士
1. 大跨建筑空间结构
2. 海洋工程空间结构
3. 柔性力学超材料及其气动软体机器人
4. 智能材料及其空间可展开结构
2026-2029 国家自然科学基金面上项目,极端海况下海上漂浮式光伏薄膜结构的耦合动力响应与失效智能评估,负责人。
2025-2028 福建永福电力设计股份有限公司,深远海漂浮式风电及新型海上光伏关键技术研究,负责人。
2025-2028 浙江君揽建设科技有限公司,新型生态护岸桩桩型设计、承载验证与性能提升研究,负责人。
2025-2027 福建永福电力设计股份有限公司,充气膜结构集热器系统研发与关键技术研究,负责人。
2024-2026 鄂尔多斯市华兴能源有限责任公司,定向长钻孔分段式定点注浆机理分析,负责人。
2023-2024 浙江君揽建设科技有限公司,三角形生态护岸桩承载力试验与分析,负责人。
2021-2024 伟德bv国际体育,“双一流”建设项目人才科研启动基金,负责人。
2021-2021 国防科技大学,浮空器囊体压力稳定控制系统,负责人。
2018-2020 国家自然科学基金青年项目,内压动态耦合下ETFE气枕非线性结构力学行为研究,负责人。
2016-2020 中国博士后科学基金博士后创新人才支持计划项目,面向仿生柔性控制的微主动器工作机理与行为研究,负责人。
2016-2020 中国博士后科学基金面上项目(一等),法向均布动态荷载作用下膜结构非线性动力学行为与机理,负责人。
2018-2021 国家自然科学基金面上项目,考虑主动控制的空气支承式涂层织物膜结构多场耦合分析与设计方法,参与人。
2015-2018 国家自然科学基金面上项目,基于平面裁切和材料非线性的ETFE气枕充气成形与结构分析方法研究,参与人。
2013-2016 国家自然科学基金面上项目,考虑裁切效应的膜结构找形优化与全过程精确分析理论研究,参与人。
【SCI期刊论文】
[86] Yibei Zhang, Shiping Li, Xiang Mi, Bing Zhao, Jianhui Hu, Wujun Chen*, Xiaohui Huang. Assembly method for large CFRP spokes designed for semi-rigid stratospheric airships. Aerospace Science and Technology, 2026, 168: 110673.
[85] Xuetao Zhao, Bing Zhao, Wujun Chen*, Jing Cai, Ying Zhang, Rosemarie Wagner. Structural effect of internal layer in ETFE Cushion: Experimental and simulation analysis. Journal of Building Engineering, 2025, 108: 112881.
[84] Yufei Fang, Yue Yin, Wujun Chen*, Chengjun Gao, Jianhui Hu, Bing Zhao, Daxu Zhang. Dynamic response analysis of large-span air-supported membrane structure under typhoon loads. Structures Volume, 2025, 77: 109060.
[83] Yufei Fang, Wujun Chen*, Daxu Zhang, Bing Zhao. Neural network-based prediction of wind-induced responses in large-span air-supported membrane structures. Thin-Walled Structures Volume, 2025, 209: 112892.
[82] Yufei Fang, Wujun Chen, Hasiyeti Jiangalan, Daxu Zhang, Bing Zhao*. Evaluation on effects of air inflow on indoor environment in an air-supported membrane coal-shed building. Energy and Buildings, 2025, 329: 115244.
[81] Yufei Fang (方宇飞), Bing Zhao (赵兵, Wujun Chen (陈务军)*, Chengjun Gao (高成军), Xiongyan Li (李雄彦), Daxu Zhang (张大旭), Chunxiang Li (李春祥). Fluid-structure interaction analysis of large-span airsupported membrane structures under typhoon conditions. Physics of Fluids, 2024, 36: 115163.
[80] Yinbo Song, Wujun Chen*, Bing Zhao, Jianhui Hu, Xuetao Zhao. Experimental and numerical study on creep deformation and failure characteristics of ETFE cushion structures. Engineering Structures, 2025, 323: 119233.
[79] Shaochen Yang, Bing Zhao, Yibei Zhang, Wujun Chen*, Sen Wang, Yuhui Fang, Zhigang Zheng, Chao Xie, Guangqiang Fang. Numerical and experimental study on the dynamic equivalent methodology of a membrane antenna structure and a grid membrane structure. Mechanical Systems and Signal Processing, 2024, 208: 110990.
[78] Tianyang Yang, Wujun Chen*, Guangqiang Fang, Zhengli Cao, Bing Zhao, Xiaozhao Zhang. Mechanical behavior of thermally-induced shape memory polymer composites thin-wall tube in non-uniform thermal field: Experiments and simulations. Mechanics of Advanced Materials and Structures, 2024, 31(6): 1332–1347.
[77] Shaochen Yang, Bing Zhao, Wujun Chen*. The added mass of a biaxial tensioned membrane in still air. Thin-Walled Structures2024, 95: 111531.
[76] Longlong Chen, Wujun Chen*, Shiping Li, Bing Zhao. Modal characteristics of a scaling stratospheric airship in still air. Aerospace Science and Technology, 2023, 141: 108521.
[75] Tianyang Yang, Wujun Chen*, Guangqiang Fang, Zhengli Cao, Bing Zhao, Xiaozhao Zhang. Experiments and Simulations on the Shape Memory Process of Thermally-Induced Shape Memory Polymer Composite Thin-Wall Structure Considering Progressive Damage. Applied Composite Materials, 2023, 30: 1159-1183.
[74] Shiping Li, Xiang Mi, Longlong Chen, Hu Jianhui, Bing Zhao, Yibei Zhang , Wujun Chen*. Static stability test and simulation of a large-scale modular carbon fiber reinforced polymer wheel-spoke-shaped stiffening ring subjected to multi-point radial loading. Engineering Structures, 2023, 285: 116015.
[73] Shiping Li, Wujun Chen*, Jianhui Hu, Bing Zhao, Haitao Zhao, Longlong Chen, Xiaohui Huang. Structural design and compression-bending test of ultra-lightweight carbon-fiber-reinforced polymer truss structures. Composite Structures, 2023, 313: 116909.
[72] Jianwen Chen*, Feng Luo, Bing Zhao, Jin Fan, Wujun Chen, Mingyang Wang, Chengjun Gao. Full-stress Range Stiffness Characteristics and a New Constitutive Model for Tensile Behaviors of Coated Fabrics under Plane Stresses. Applied Composite Materials, 2023, 30: 111-134.
[71] Yibei Zhang, Bing Zhao, Jianhui Hu, Xiang Mi, Wujun Chen*. Modal measurement and identification of hexagonal air cushions. Mechanical Systems and Signal Processing, 2022, 179: 109377.
[70] Longlong Chen, Wujun Chen*, Chengjun Gao, Shiping Li, Yinbo Song, Haitao Zhao, Jianhui Hu, Bing Zhao. Strength analysis of composite envelope structures considering the tension–shear coupling and cutting pattern effect. Thin-Walled Structures, 2022, 180: 109919.
[69] Jianwen Chen, Ruonan Zhang, Bing Zhao*, Wujun Chen, Mingyang Wang. Numerical investigation on central tearing behaviors and propagation mechanisms of coated warp-knitted fabrics. Journal of Industrial Textiles, 2022, 51(S4): 6503S-6532S.
[68] Tianyang Yang, Wujun Chen, Jianhui Hu, Bing Zhao, Guangqiang Fang, Fujun Peng, Zhengli Cao. Thermal Conduction Behaviors of Single-ply Broken Twill Weave Reinforced Thermally Induced Resin-based Shape Memory Polymer Composites: Multi-scale Method Analysis and Laser Flash Analysis. Applied Composite Materials, 2022, 29: 473-496.
[67] Jianwen Chen, Yufan Xia, Bing Zhao*, Wujun Chen, Mingyang Wang, Feng Luo. Nonlinear characteristics and a new fractional constitutive model for warp-knitted NCF composites under normal loading conditions. Polymer Testing, 2022, 107: 107464.
[66] Matheus C. Fernandes , Saurabh Mhatre, Antonio E. Forte, Bing Zhao, Olga Mesa, James C. Weaver, Martin Bechthold , Katia Bertoldi*. Surface texture modulation via buckling in porous inclined mechanical metamaterials. Extreme Mechanics Letters, 2022, 51: 101549.
[65] Yue Yin, Yinbo Song, Wujun Chen*, Yongsheng Yan, Xiaoqing Wang, Jianhui Hu, Bing Zhao, Sijie Ren. Thermal environment analysis of enclosed dome with double-layered PTFE fabric roof integrated with aerogel-glass wool insulation mats: On-site test and numerical simulation. 2022, 254: 111621.
[64] J. Gao, W. Chen*, J. Chen, J. Hu, B. Zhao, D. Zhang, G. Fang, F. Peng. Accuracy analysis on counterweight-balanced column bending test. Experimental Mechanics, 2022, 62: 137-150.
[63] Bing Zhao, Wujun Chen*, Jianwen Chen, Zhongliang Jing. Experimental evaluation on structural behaviors of ETFE cushion structures subjected to progressive loading. Journal of Structural Engineering-ASCE, 2021, 147(12), 04021205.
[62] Bing Zhao, Wujun Chen*. Rate-dependent mechanical properties and elastic modulus of ETFE foils used in inflated forming of transparency air-inflated cushion membrane structures. Engineering Structures, 2021, 227: 111404.
[61] Jianwen Chen, Yufan Xia, Bing Zhao*, Wujun Chen, Mingyang Wang, Jin Fan, Ruonan Zhang. Detailed characteristics of shear stiffness for coated biaxial warp-knitted fabrics subjected to coupled shear-tension loads. Construction and Building Materials, 2021, 304: 124517.
[60] Jianwen Chen*, Yufan Xia, Bing Zhao*, Wujun Chen, Mingyang Wang, Ruonan Zhang. Shear performance and mechanism analysis of warp-knitted non-crimp fabric composites under combined shear and tension loading. Composite Structures, 2021, 263: 113632.
[59] Yue Yin, Wujun Chen, Jianhui Hu, Bing Zhao, Qin Wang. In-situ measurement of structural performance of large-span air-supported dome under wind loads. Thin-Walled Structures, 2021, 169: 108476.
[58] Tianyang Yang, Wujun Chen, Jianhui Hu, Bing Zhao, Guangqiang Fang, Fujun Peng, Zhengli Cao. Thermal Conduction Behaviors of Single-ply Broken Twill Weave Reinforced Thermally Induced Resin-based Shape Memory Polymer Composites: Multi-scale Method Analysis and Laser Flash Analysis. Applied Composite Materials, 2021, 1-24.
[57] J Gao, W Chen, J Chen, J Hu, B Zhao, D Zhang, G Fang, F Peng. Accuracy Analysis on Counterweight-Balanced Column Bending Test. 2021, Experimental Mechanics, 2021: 1-14.
[56] Jifeng Gao, Wujun Chen, Jubing Chen, Jianhui Hu, Bing Zhao, Daxu Zhang, Guangqiang Fang, Fujun Peng. Large deformation bending of single‐ply fabric reinforced polymer composite. Polymer Composites, 2021, 42(11): 6038–6050.
[55] Chengjun Gao, Wujun Chen*, Taibai Shi, Bing Zhao, Jianhui Hu. Investigations of the mechanical behavior of naturally weathered envelopes based on a long-term service airship. Journal of Aerospace Engineering, 2021, 34(1): 04020103.
[54] Yibei Zhang, Bing Zhao, Jianhui Hu, Wujun Chen*, Xiaowei Deng, Zhengyue Yu, Chao Xie, Fujun Peng, Xiaofei Huang. Experimental methodology for bubble content measurement of thin films. Polymer Testing, 2021, 93: 106876.
[53] Bing Zhao, Jianhui Hu, Wujun Chen*, Jianwen Chen, Zhongliang Jing. A nonlinear uniaxial stress-strain constitutive model for viscoelastic membrane materials. Polymer Testing, 2020, 90: 106633.
[52] Bing Zhao, Jianhui Hu, Wujun Chen*, Jianwen Chen, Zhongliang Jing. Uniaxial tensile creep properties of ETFE foils at a wide range of loading stresses subjected to long-term loading. Construction and Building Materials, 2020, 253: 119112.
[51] Bing Zhao, Wujun Chen*. Experimental study and constitutive modeling on viscoelastic-plastic mechanical properties of ETFE foils subjected to uniaxial monotonic tension at various strain rates. Construction and Building Materials. 2020, 263: 120060.
[50] YB Zhang, B Zhao, JH Hu, WJ Chen*, XW Deng, ZY Yu, C Xie, FJ Peng. Modal identification experimental investigations and calculation method for biaxial tensioned membranes. Thin-Walled Structures, 2020, 154: 106877.
[49] Chengjun Gao, Wujun Chen*, Jianhui Hu, Bing Zhao. A new constitutive model on biaxial tensile behavior of architectural fabrics. Polymer Testing, 2020, 87: 106519.
[48] Pengxuan Fan, Wujun Chen*, Jianhui Hu, Bing Zhao, Jifeng Gao, Guangqiang Fang, Fujun Peng. Stress relaxation properties of an epoxy-based shape-memory polymer considering temperature influence: experimental investigation and constitutive modeling. Mechanics of Time-Dependent Materials, 2020, 24: 265-284.
[47] Yue Yin, Wujun Chen*, Jianhui Hu, Bing Zhao, Xiaofei Huang. Photothermal-structural-fluid behaviors of PV-ETFE cushion roof in summer: Numerical analysis using three-dimensional Multiphysics model. Energy and Buildings, 2020, 228: 110448.
[46] YB Zhang, B Zhao, JH Hu, WJ Chen*, XW Deng, ZY Yu, C Xie, FJ Peng. Dynamic equivalent methodology of a rectangular membrane and a grid membrane: Formulation, simulation and experiment. Thin-Walled Structures, 2020, 148: 106567.
[45] Jianhui Hu, Wujun Chen*, Yipo Li, Yegao Qu, Bing Zhao, Deqing Yang. Temperature-stress-time methodology for flat-patterning ETFE cushions in use for large-span building structures. Engineering Structures, 2020, 204: 109607.
[44] Bing Zhao, Jianhui Hu, Wujun Chen*, Jianwen Chen, Zhenyu Qiu, Zhongliang Jing. Computational method for in-situ finite element modeling of inflatable membrane structures based on geometrical shape measurement using photogrammetry. Computers & Structures, 2019, 224: 106105.
[43] Bing Zhao, Jianhui Hu, Wujun Chen*, Jianwen Chen, Zhongliang Jing. Simultaneous uniaxial creep testing of time-dependent membrane materials with optical devices. Materials Today Communications, 2019, 21: 100655.
[42] Jifeng Gao, Wujun Chen*, Bing Yu, Pengxuan Fan, Bing Zhao, Jianhui Hu, Daxu Zhang, Guangqiang Fang, Fujun Peng. A multi-scale method for predicting ABD stiffness matrix of single-ply weave-reinforced composite. Composite Structures, 2019, 230: 111478.
[41] Chengjun Gao, Wujun Chen*, Taibai Shi, Jianhui Hu, Bing Zhao, Zhenyu Qiu. Response surface characterization for biaxial tensile properties of envelope fabrics under multiple stress ratios. Composite Structures, 2019, 230: 111482.
[40] Jinyu Zhou, Wujun Chen*, Jianhui Hu, Bing Zhao, Tengfei Zhang. Force finding of cable–strut structures using a symmetry-based method. Archive of Applied Mechanics, 2019, 89(8): 1473-1484.
[39] JW Chen*, B Zhao, WJ Chen*, MY Wang, XY Guan, SHX Wu. Response surface analysis of biaxial mechanical properties and elastic parameters for woven fabric composites. Journal of Industrial Textiles, 2019, 49(2): 219-242.
[38] Jianwen Chen*, Han Zhou, Wujun Chen, Mingyang Wang*, Bing Zhao, Weiwei Sun. Full-strain range characteristics of the Poisson’s ratio for coated biaxial warp-knitted fabrics under bias tensile loading. Textile Research Journal, 2019, 89(10): 1997-2009.
[37] Taibai Shi, Wujun Chen*, Chengjun Gao, Jianhui Hu, Bing Zhao, Mei Wang. Biaxial constitutive relationship and strength criterion of composite fabric for airship structures. Composite Structures, 2019, 214: 379-389.
[36] Zhenyu Qiu, Wujun Chen*, Chengjun Gao, Bing Zhao, Jianhui Hu, Xuemin Wang, Xique Wang, Guofu Lu. Initial configuration and nonlinear mechanical analysis of stratospheric nonrigid airship envelope. Journal of Aerospace Engineering, 2019, 32(2): 04018155.
[35] Jifeng Gao, Wujun Chen*, Bing Yu, Pengxuan Fan, Bing Zhao, Jianhui Hu, Daxu Zhang, Guangqiang Fang, Fujun Peng. Effect of temperature on the mechanical behaviours of a single-ply weave-reinforced shape memory polymer composite. Composites Part B: Engineering, 2019, 159: 336-345.
[34] Bing Zhao, Jianhui Hu, Wujun Chen*, Jianwen Chen, Zhongliang Jing. Dynamic geometrical shape measurement and structural analysis of inflatable membrane structures using a low-cost three-camera system. Automation in Construction, 2018, 96: 442-456.
[33] Bing Zhao, Jianhui Hu, Wujun Chen*, Jianwen Chen, Zhenyu Qiu, Jinyu Zhou, Chengjun Gao. An automatic system for pressure control and load simulation of inflatable membrane structure. Automation in Construction, 2018, 90: 58-66.
[32] Jianwen Chen*, Han Zhou, Bing Zhao, Wujun Chen, Mingyang Wang*, Zhihong Xu. A new theoretical equation to estimate Poisson’s ratio for coated bi-axial warp knitted fabrics under bias tensile loading. Fibers and Polymers, 2018, 19(12): 2631-2641.
[31] Taibai Shi, Wujun Chen*, Chengjun Gao, Jianhui Hu, Bing Zhao, Daxu Zhang, Zhenyu Qiu. Shear behavior of architectural coated fabrics under biaxial bias-extension. Construction and Building Materials, 2018, 187: 964-973.
[30] Chengjun Gao, Wujun Chen*, Taibai Shi, Jianhui Hu, Bing Zhao, Zhenyu Qiu. Shear properties of PVDF-coated fabrics under multicyclic biaxial bias extension. Journal of Materials in Civil Engineering, 2018, 30(10): 04018241.
[29] Taibai Shi, Wujun Chen*, Chengjun Gao, Jianhui Hu, Bing Zhao, Xueming Wang, Xique Wang. Investigation of mechanical behavior of weld seams of composite envelopes in airship structures. X Wang, X Wang, G Lu Composite Structures, 2018, 201: 1-12.
[28] Jifeng Gao, Wujun Chen*, Pengxuan Fan, Bing Zhao, Jianhui Hu, Daxu Zhang, Guangqiang Fang, Fujun Peng. Experimental determination of mechanical properties of a single-ply broken twill 1/3 weave reinforced shape memory polymer composite. Polymer Testing, 2018, 69: 100-106.
[27] Pengxuan Fan, Wujun Chen*, Bing Zhao, Jianhui Hu, Jifeng Gao, Guangqiang Fang, Fujun Peng. Formulation and numerical implementation of tensile shape memory process of shape memory polymers. Polymer, 2018, 148: 370-381.
[26] Taibai Shi, Wujun Chen*, Chengjun Gao, Jianhui Hu, Bing Zhao, Pingan Wang, Mei Wang. Yarn tensile experiments and numerical simulations based on the decomposition of stratospheric airship envelopes. Journal of Aerospace Engineering, 2018, 31(3): 04018011.
[25] Jianwen Chen*, Wujun Chen*, Han Zhou, Bing Zhao, Mingyang Wang, Weiwei Sun, Shizan He. Fracture failure analysis and bias tearing strength criterion for a laminated fabric. Journal of Industrial Textiles, 2018, 47(7): 1496-1527.
[24] Taibai Shi, Wujun Chen*, Chengjun Gao, Jianhui Hu, Bing Zhao, Mei Wang. Biaxial strength determination of woven fabric composite for airship structural envelope based on novel specimens. Composite Structures, 2018, 184: 1126-1136.
[23] Bing Zhao, Leiting Dong, Wujun Chen*, Jianhui Hu, Jianwen Chen, Zhenyu Qiu, Jinyu Zhou. Mechanical properties and structural performance of ETFE (ethylene-tetrafluoroethylene) cushion structures at low temperatures. Engineering Structures, 2017, 136: 420-429.
[22] Bing Zhao, Wujun Chen*, Jianhui Hu, Jianwen Chen, Zhenyu Qiu, Jinyu Zhou. In-situ determination of stress distribution of inflatable membrane structure using force finding method. Journal of Engineering Mechanics-ASCE, 2017, 143(8): 04017042.
[21] Jianwen Chen*, Wujun Chen, Mingyang Wang, Yong Ding, Han Zhou, Bing Zhao, Jin Fan. Mechanical behaviors and elastic parameters of laminated fabric URETEK3216LV subjected to uniaxial and biaxial loading. Applied Composite Materials, 2017, 24(5): 1107-1136.
[20] Jinyu Zhou, Wujun Chen*, Bing Zhao, Shilin Dong. A feasible symmetric state of initial force design for cable-strut structures. Archive of Applied Mechanics, 2017, 87(8): 1385-1397.
[19] Jianwen Chen*, Wujun Chen, Han Zhou, Bing Zhao, Yong Ding, Ning Zhang. Central tearing characteristics of laminated fabrics: Effect of slit parameter, off-axis angle, and loading speed. Journal of Reinforced Plastics and Composites, 2017, 36(13): 921-941.
[18] Jianhui Hu, Chengjun Gao, Shizan He, Wujun Chen*, Yipo Li, Bing Zhao, Taibai Shi, Deqing Yang. Effects of on-axis and off-axis tension on uniaxial mechanical properties of plain woven fabrics for inflated structures. Composite Structures, 2017, 171: 92-99.
[17] Jianhui Hu, Yipo Li, Wujun Chen*, Bing Zhao, Deqing Yang. Effects of temperature and stress on creep properties of ethylene tetrafluoroethylene (ETFE) foils for transparent buildings. Polymer Testing, 2017, 59: 268-276.
[16] Jianhui Hu, Yue Yin, Wujun Chen*, Bing Zhao, Deqing Yang. Nonlinear structural behavior of flat-patterning ETFE cushion structures: Experimental observations and numerical simulations. Thin-Walled Structures, 2017, 114: 107-115.
[15] Jianhui Hu, Wujun Chen*, Yu Liu, Bing Zhao, Chengjun Gao, Deqing Yang. Dynamic mechanical analysis of ethylene tetrafluoroethylene (ETFE) foils in use for transparent membrane buildings. Polymer Testing, 2017, 59: 118-126.
[14] Jianhui Hu, Wujun Chen*, Yu Liu, Bing Zhao, Deqing Yang, Binbin Ge. Two-layer ETFE cushions integrated flexible photovoltaics: Prototype development and thermal performance assessment. Energy and Buildings, 2017, 141: 238-246.
[13] Jianhui Hu, Wujun Chen*, Bing Zhao, Deqing Yang. Buildings with ETFE foils: A review on material properties, architectural performance and structural behavior. Construction and Building Materials, 2017, 131: 411-422.
[12] Bing Zhao*, Wujun Chen*, Jianhui Hu*, Jianwen Chen, Zhenyu Qiu, Jinyu Zhou. An innovative methodology for measurement of stress distribution of inflatable membrane structures. Measurement Science & Technology, 2016, 27(2): 025002.
[11] Bing Zhao, Jianhui Hu*, Wujun Chen*, Zhenyu Qiu, Jinyu Zhou, Yegao Qu, Binbin Ge. Photothermal performance of an amorphous silicon photovoltaic panel integrated in a membrane structure. Journal of Physics D Applied Physics, 2016, 49(39): 395601.
[10] Bing Zhao, Wujun Chen*, Jianhui Hu, Jianwen Chen, Zhenyu Qiu, Jinyu Zhou, Chengjun Gao. Mechanical properties of ETFE foils in form-developing of inflated cushion through flat-patterning. Construction and Building Materials, 2016, 111: 580-589.
[9] Jianhui Hu, Wujun Chen*, Deqing Yang, Bing Zhao, Hao Song, Binbin Ge. Energy performance of ETFE cushion roof integrated photovoltaic/thermal system on hot and cold days. Applied energy, 2016, 173: 40-51.
[8] Jianhui Hu, Wujun Chen*, Qiyao Cai, Chengjun Gao, Bing Zhao, Zhenyu Qiu, Yegao Qu. Structural behavior of the PV–ETFE cushion roof. Thin-Walled Structures, 2016, 101: 169-180.
[7] Bing Zhao, Wujun Chen*, Jianhui Hu, Zhenyu Qiu, Yegao Qu, Binbin Ge. A thermal model for amorphous silicon photovoltaic integrated in ETFE cushion roofs. Energy Conversion and Management, 2015, 100: 440-448.
[6] Jianwen Chen*, Wujun Chen, Bing Zhao, Bo Yao. Mechanical responses and damage morphology of laminated fabrics with a central slit under uniaxial tension: A comparison between analytical and experimental results. Construction and Building Materials, 2015, 101: 488-502.
[5] Jianhui Hu, Wujun Chen*, Zhenyu Qiu, Bing Zhao, Jinyu Zhou, Yegao Qu. Thermal performances of ETFE cushion roof integrated amorphous silicon photovoltaic. Energy Conversion and Management, 2015, 106: 1201-1211.
[4] Jinyu Zhou, Wujun Chen*, Bing Zhao, Zhenyu Qiu, Shilin Dong. Distributed indeterminacy evaluation of cable-strut structures: formulations and applications. Journal of Zhejiang University-SCIENCE A, 2015, 16(9): 737-748.
[3] Jianhui Hu, Wujun Chen*, Bing Zhao, Kai Wang. Uniaxial tensile mechanical properties and model parameters determination of ethylene tetrafluoroethylene (ETFE) foils. Construction and Building Materials, 2015, 75: 200-207.
[2] Jianhui Hu, Wujun Chen*, Renjie Luo, Bing Zhao, Rui Sun. Uniaxial cyclic tensile mechanical properties of ethylene tetrafluoroethylene (ETFE) foils. Construction and Building Materials, 2014, 63: 311-319.
[1] Jianhui Hu, Wujun Chen*, Bing Zhao, Hao Song. Experimental studies on summer performance and feasibility of a BIPV/T ethylene tetrafluoroethylene (ETFE) cushion structure system. Energy and Buildings, 2014, 69: 394-406.
【中文期刊论文】
[35] 周子龙, 陈务军*, 杨少臣, 陈龙龙, 赵兵, 朱立. 拉片式多气室拱形充气膜试验与数值分析. 空间结构, 2024, 30(04): 46-52.
[34] 陈建稳, 刘祥伟, 胡宇航, 陈务军, 赵兵*. 乙烯-四氟乙烯薄膜单轴拉伸中心撕裂力学行为[J]. 复合材料学报, 2025, 42(08): 4410-4418.
[33] 代玖枚, 周竞航, 胡建辉, 赵兵, 陈务军*, 任思杰. 有色ETFE薄膜光热性能试验研究[J]. 钢结构(中英文), 2024, 39(02): 43-49.
[32] 陈建稳*, 马俊杰, 赵兵, 陈务军. 双轴经编织物膜梯形撕裂扩展机制及其拉剪耦合行为[J]. 复合材料学报, 2023, 40(12): 6922-6933.
[31] 刘昶江, 赵兵, 陈务军*. ECTFE气枕充气过程的试验与模拟分析研究[J]. 空间结构, 2021, 27(03): 68-73.
[30] 刘昶江, 赵兵, 陈务军*. 不同温度下的乙烯-三氟氯乙烯共聚物薄膜单轴拉伸试验. 伟德bv国际体育学报, 2021, 55(4): 387-393.
[29] 高冀峰, 房光强, 余兵, 樊鹏玄, 陈务军*, 赵兵, 曹争利. 织物增强形状记忆复合材料大型空间可展桁架研究进展. 机械工程学报, 2020, 56(5): 80-92.
[28] 高冀峰, 余兵, 陈务军*, 胡建辉, 赵兵, 樊鹏玄, 张大旭, 房光强, 彭福军. 单层编织增强复合材料力学特性计算. 上海航天(中英文), 2020, 37(4): 107-116.
[27] 陈建稳*, 吴善祥, 赵兵, 关晓宇, 夏雨凡, 王明洋. 经编织物类复合膜材拉伸力学性能的温度效应. 东南大学学报(自然科学版), 2020, 50(2): 251-259.
[26] 陈务军, 刘昶江, 赵兵*. 不同拉伸速率下的ECTFE薄膜单轴拉伸试验. 天津大学学报(自然科学与工程技术版), 2019, 52(S2): 16-22. (EI)
[25] 樊鹏玄, 陈务军*, 胡建辉, 赵兵, 房光强, 曹争利, 彭福军. 环氧基形状记忆聚合物超弹-黏弹性本构及大应变率相关. 伟德bv国际体育学报, 2019, 53(9): 1017-1022.
[24] 樊鹏玄, 陈务军*, 赵兵, 胡建辉, 张大旭, 房光强, 彭福军. 基于广义Maxwell模型的形状记忆聚合物力学本构. 伟德bv国际体育学报, 2018, 52(8): 969-975.
[23] 贾林睿, 陈务军*, 赵兵, 董鹏, 敬忠良. 一种飞爬两用机器人的腿部机构设计与仿真分析. 机械设计与研究, 2018, 34(4): 14-17+22.
[22] 樊鹏玄, 陈务军*, 赵兵, 胡建辉, 张大旭, 房光强, 彭福军. Prony级数形式的形状记忆聚合物有限应变黏弹性本构模型. 浙江大学学报(工学版), 2018, 52(6): 1194-1200.
[21] 樊鹏玄, 陈务军*, 张祎贝, 赵兵. 盘绕式伸展臂非线性振动力学分析. 振动与冲击, 2018, 37(10): 80-86+109.
[20] 樊鹏玄, 陈务军*, 赵兵. 盘绕式伸展臂收纳过程理论分析与数值模拟. 工程力学, 2018, 35(3): 249-256.
[19] 阴悦, 胡建辉, 陈务军*, 赵兵, 杨德庆. ETFE气枕平面充气成形过程的非线性结构性能分析. 建筑结构学报, 2018, 39(3): 12-18.
[18] 赵兵, 陈务军*, 胡建辉, 邱振宇, 赵俊钊. 基于摄影测量的充气膜结构有限元建模方法. 工程力学, 2017, 34(3): 141-148. (EI)
[17] 陈建稳, 周涵, 陈务军*, 赵兵, 王明洋. 飞艇用层压织物膜材料在双向应力作用下的弹性参数分析. 伟德bv国际体育学报, 2017, 51(3): 344-352.
[16] 陈建稳*, 陈务军, 王明洋, 周涵, 赵兵, 姚波, 高成军. 织物膜材弹性参数在应力空间上响应特征及非线性本构分析.湖南大学学报(自然科学版), 2017, 44(5): 113-121.
[15] 邱振宇, 陈务军*, 赵兵, 高成军, 余征跃. 飞艇主气囊结构湿模态分析与试验研究. 振动与冲击, 2017, 36(12): 61-67+82.
[14] 周锦瑜, 陈务军*, 胡建辉, 赵兵, 王丽君. 考虑预应力作用的索杆张力结构冗余度分析. 伟德bv国际体育学报, 2017, 51(7): 774-780.
[13] 邱振宇, 陈务军*, 赵兵, 陈宇峰. 充气尾翼湿模态分析与试验研究. 振动与冲击, 2016, 35(15): 140-143+148.
[12] 陈建稳*, 王明洋, 陈务军, 张宁, 周涵, 赵兵. 层压织物类膜材拉伸应变在应力空间上响应特征. 浙江大学学报(工学版), 2016, 50(11): 2150-2157.
[11] 胡鹏宇, 胡建辉, 陈务军*, 赵兵. 乙烯-四氟乙烯共聚物薄膜单向拉伸性能及黏塑性本构模型. 伟德bv国际体育学报, 2016, 50(11): 1700-1705.
[10] 赵兵, 陈务军*, 胡建辉, 董石麟. ETFE气枕结构成形设计方法与试验. 哈尔滨工业大学学报, 2016, 48(6): 58-63.
[9] 赵兵, 陈务军*, 胡建辉, 邱振宇, 宋浩, 蔡晶. 基于平面裁切的三角形乙烯-四氟乙烯气枕成形试验及数值模拟. 伟德bv国际体育学报, 2016, 50(3): 377-383.
[8] 陈宇峰, 陈务军*, 邱振宇, 赵兵. 空气对预应力薄膜结构模态的影响. 浙江大学学报(工学版), 2015, 49(6): 1123-1127.
[7] 胡建辉, 陈务军*, 赵兵, 胡鹏宇, 葛彬彬, 宋浩. 非晶硅薄膜太阳能电池热模型的模拟与试验研究. 伟德bv国际体育学报, 2015, 49(4): 436-441.
[6] 胡建辉, 陈务军*, 孙瑞, 赵兵, 罗仁杰. ETFE薄膜单轴循环拉伸力学性能. 建筑材料学报, 2015, 18(1): 69-75.
[5] 胡建辉, 陈务军*, 赵兵, 宋浩. PV-ETFE气枕结构温度实测研究. 华中科技大学学报(自然科学版), 2015, 43(1): 57-60.
[4] 陈宇峰, 陈务军*, 赵兵. ETFE 薄膜单轴和双轴拉伸试验与分析. 华南理工大学学报: 自然科学版, 2014, 42(10): 125-130.
[3] 胡建辉, 陈务军*, 赵兵, 宋浩. PV-ETFE气枕系统冬季性能试验研究. 浙江大学学报(工学版), 2014, 48(10): 1816-1821.
[2] 陈建稳*, 陈务军, 赵兵. 浮空器膜材循环拉伸力学性能及弹性常数研究. 湖南大学学报(自然科学版), 2013, 40(6): 40-46.
[1] 赵兵, 陈务军*, 何艳丽, 宋浩. ETFE薄膜双层气枕结构试验研究. 空间结构, 2013, 19(1): 65-71+78.
【学术会议论文】
[19] 周子龙, 严帅, 陈龙龙, 赵兵, 陈务军*. 大跨气肋与拉片式多气室拱形充气膜结构分析研究. 第二十三届全国现代结构工程学术研讨会, 兰州, 2023.7.21-23.
[18] 樊鹏玄, 陈务军*, 杨天洋, 赵兵, 高成军, 房光强, 彭福军. 织物增强形状记忆聚合物的多尺度均匀化及热致形状记忆建模. 2018年全国固体力学学术会议, 哈尔滨, 2018.11.23-25.
[17] 杨天洋, 赵兵, 陈务军*, 樊鹏玄, 潘汉, 敬忠良. 形状记忆合金驱动的仿生柔性操控臂的结构设计与研究. 2018年全国固体力学学术会议, 哈尔滨, 2018.11.23-25.
[16] 王丽君, 陈务军*, 赵兵, 张大旭, 房光强, 曹争利. 不同温度-应力的SMP徐变试验与分析研究. 第十七届全国现代结构工程学术研讨会, 天津, 2017.7.21-23.
[15] 阴悦, 胡建辉, 陈务军*, 赵兵. 平面充气成形的ETFE气枕徐变效应数值分析. 第十七届全国现代结构工程学术研讨会, 天津, 2017.7.21-23.
[14] 贾林睿, 张祎贝, 陈务军*, 赵兵. 八面体单元变几何桁架设计与分析. 第十七届全国现代结构工程学术研讨会, 天津, 2017.7.21-23.
[13] 胡建辉, 陈务军*, 杨德庆, 李一坡, 赵兵. 乙烯四氟乙烯(ETFE)薄膜徐变特性. 第十六届空间结构学术会议, 杭州, 2016.10.24-26.
[12] 高成军, 陈务军*, 胡建辉, 赵兵, 邱振宇, 何世赞. 涂层平纹织物力学性能测试方法. 第十六届空间结构学术会议, 杭州, 2016.10.24-26.
[11] 赵兵, 陈务军*, 胡建辉. ETFE气枕应力应变测试与分析方法. 第十六届空间结构学术会议, 杭州, 2016.10.24-26.
[10] Bing Zhao, Wujun Chen*, Jianhui Hu, Chengjun Gao. In-situ determination of stress and strain distributions of inflatable membrane structure based on photogrammetry. Proceedings of the IASS Annual Symposium 2016, Tokyo, Japan, 2016.09.26-30.
[9] 游晋, 陈务军*, 王丽君, 赵兵. 一种环氧形状记忆聚合物的拉伸力学性能研究. 第十六届全国现代结构工程学术研讨会, 聊城, 2016.7.22-24.
[8] 陈建稳*, 陈务军, 高成军, 赵兵, 章凯翔. 材料主向偏转对织物膜材力学参数影响的定量分析. 第十六届全国现代结构工程学术研讨会, 聊城, 2016.7.22-24.
[7] Jianhui Hu, Wujun Chen*, Bing Zhao, et al. Estimation of thermal performance of PV-ETFE. The 7th International Conference on Textile Composites and Inflatable Structures, Barcelona, Spain, 2015.10.19-21.
[6] Bing Zhao, Wujun Chen*, Jianhui Hu, Zhenyu Qiu, Hao Song. Experimental investigation on forming design methods of ETFE cushion. The 7th International Conference on Textile Composites and Inflatable Structures, Barcelona, Spain, 2015.10.19-21.
[5] 赵兵, 陈务军*, 胡建辉. 充气膜结构动态外形的三维摄影测量方法. 第二届全国空间结构博士生论坛, 北京, 2015.10.10-11.
[4] Wujun Chen*, Bing Zhao, Hao Song, Jing Cai. Experimental study of ETFE cushion-inflated form-developing through flat-patterning. Proceedings of the IASS-SLTE 2014 Symposium, Brasilia, Brazil, 2014.9.15-19.
[3] 赵兵, 陈务军*, 宋浩, 蔡晶. 基于平面裁切的 ETFE 气枕成形与徐变试验. 第十四届全国现代结构工程学术研讨会, 天津, 2014.07.18-21.
[2] 赵兵, 陈务军*. ETFE 薄膜在高温环境下的拉伸强度和焊接强度试验. 第一届全国空间结构博士生论坛, 杭州, 2012.10.19-20.
[1] 陈务军*, 赵兵, 胡建辉. ETFE 薄膜力学特性与 ETFE 气枕结构特性研究. 第七届膜结构技术交流会议,北京,2012.10.19-21.
1. 《工程学导论》:本科生,48学时。
2. 《工程结构与仿生》:研究生,48学时。
3. 《新型空间结构》:研究生,32学时。
1. 陈务军; 赵兵; 何艳丽, 一种ETFE气枕结构试验恒压力控制系统, 2013-5-8, 中国, ZL201110360157.1.
2. 陈务军; 石泰百; 高成军; 胡建辉; 赵兵, 双轴拉伸加载设备, 2018-12-28, 中国, ZL201830457972.2.
3. 陈务军; 高成军; 胡建辉; 赵兵, 控制柜, 2018-7-23, 中国, ZL201830397780.7.
4. 陈务军; 石泰百; 高成军; 胡建辉; 赵兵, 一种织物膜材双轴拉伸强度的判定方法, 2018-8-27, 中国, ZL201810982452.2.
5. 陈务军; 周锦瑜; 胡建辉; 赵兵, 一种大跨上层联方形内环马鞍形双层索杆张拉结构, 2018-8-27, 中国, ZL201810980913.2.
2021 上海市海外高层次人才计划
2019 伟德bv国际体育海外博士后团队储备项目
2018 伟德bv国际体育蒙民伟国际交流基金
2017 博士后国际交流计划学术交流项目
2016 全国博士后创新人才支持计划
