江佳斐

   江佳斐

   博士、研究员

   邮箱:jfjiang@tongji.edu.cn

   传真:021-65987359

   通信地址:上海市四平路1239号 同济大学土木学院结构工程与防灾研究所B209室




研究方向:

1.高性能FRP筋混凝土结构

2.新型预制混凝土结构

欢迎对该方向感兴趣的学生(报考结构工程方向的硕士、博士生)和青年学者加入!


教育经历:

2003.9-2008.6  大连理工大学/土木水利学院,土木工程(英语强化)专业,

                         工程学士学位及英语专业副学士

2008.9-2012.10 香港城市大学/土木及建筑工程系,博士


工作经历:

2023.1-今             同济大学土木工程学院,防灾减灾工程系,研究员

2020.1-2022.12    同济大学土木工程学院,防灾减灾工程系,副教授

2018.1-2019.12 同济大学土木工程学院,副研究员

2013.6-2017.12 同济大学土木工程学院,助理研究员

2012.11-2012.12 香港城市大学/土木及建筑工程系, Research Associate


科研资助项目:

  1. “十四五”国家重点研发计划课题,热塑性复合材料筋混凝土结构受力机理与设计理论及示范,主持

  2. 中国建材院非金属材料创新中心,纤维增强复合材料箍筋制备与应用关键技术及工程示范,主持

  3. 国家自然科学基金面上项目,FRP筋混凝土复合受扭构件的损伤机理及计算理论,主持

  4. 企业合作,核岛厂房装配式混凝土结构体系研发与试验研究,第二负责人

  5. 企业合作,装配式地下车站结构试验研究,第二负责人


主要科研成果:

       上海市土木工程高峰学科揭榜挂帅团队青年英才,获“全国建设工程FRP应用领域杰出青年学者奖”。主持 “十四五”国家重点研发课题、国家自然科学基金面上项目、国际合作项目等10余项,发表期刊论文60余篇,授权专利4项(国际1项),主、参编行标/上海市 / CECS协会标准10余部。


教学工作(主讲)

  1. 《建筑结构抗震》(全英语)(国家首批一流本科课程)

  2. 《工程图学I》(全英语)


主要论文:

[1]    Jiang JF*, Cui YX, Han ZY. Experimental study and analysis-oriented model of PET FRP confined ECC cylinders under monotonic axial compression. Engineering Structures, 2023, 280: 115610.

[2]    Yun YC, Jiang JF*, Chen P. Flexural behavior of lattice girder slabs with different connections: Experimental study. Advances in Civil Engineering, 2022.

[3]    Cui Y, Jiang J*, Fu T, et al. Feasibility of using Waste Brine/Seawater and Sea Sand for the Production of Concrete: An Experimental Investigation from Mechanical Properties and Durability Perspectives. Sustainability, 2022, 14(20): 13340. 

[4]    He L, Khadka B, Sun X, Jiang J*. Compressive strength of rammed earth filled steel tubular stub columns. Case Studies in Construction Materials, 2022, 17: e01379. 

[5]    Jiang J, Xue W*, Luo J, et al.Hysteresis behavior of precast concrete composite shear walls with improved vertical connections. Structures, 2022, 36: 533-548. 

[6]    Jiang J, Luo J, Xue W*, et al. Experimental study on hysteresis behavior of precast concrete double skin shear wall with horizontal loop connection and spiral-confined vertical lap connection. Journal of Building Engineering, 2022,45: 103526. 

[7]    Jiang J, Luo J, Xue W*, et al. Seismic performance of precast concrete double skin shear walls with different vertical connection types. Engineering Structures, 2021, 245: 112911. 

[8]    Feng C, Huang S, Liu S, Jiang J. Molecular Dynamics Simulation of the Diffusion Mechanism of Chloride Ion between Different Phases of Cement-Based Concrete. Integrated Ferroelectrics, 2021, 215(1): 67-77. 

[9]    Li B, Jiang J*, Xiong H, et al. Improved concrete plastic-damage model for FRP-confined concrete based on true tri-axial experiment. Composite Structures, 2021,269: 114051.

[10] Wu X, Fan XL, Jiang J F*. Performance of cement asphalt mortar with nanomaterials. Advances in Cement Research, 2020, 32(7): 332-341.

[11] Yuan, C., Kong, Q., Chen, W., Jiang, J., & Hao, H. Interfacial debonding detection in externally bonded BFRP reinforced concrete using stress wave-based sensing approach. Smart Materials and Structures,2020, 29(3), 035039. 

[12] Fan XL, Gu SJ, Wu X , Jiang JF* Critical shear crack theory-based punching shear model for FRP-reinforced concrete slabs. Advances in Structural Engineering, 2020,24(6): 1208-1220. 

[13] Jiang JF, Li PD*, Nistico N. Local and global prediction on stress-strain behavior of FRP-confined square concrete sections. Composite Structures, 2019, 226, 111205. 

[14] Jiang JF, Jiang C*, Li BB, et al.Bond behavior of basalt textile meshes in ultra-high ductility cementitious composites. Composites, Part B, 2019, 174, 107022. 

[15] Jiang JF, Luo J, Yu JT*, et al. Performance improvement of a fiber-reinforced polymer bar for a reinforced sea sand and seawater concrete beam in the serviceability limit state. Sensors, 2019, 19(3), 654-.

[16] Li B B, Xiong H B, Jiang Jiafei*, et al. Tensile behavior of basalt textile grid reinforced Engineering Cementitious Composite. Composites, Part B, 2019, 156:185-200. 

[17] Li B B, Xiong H B, Jiang J F*. End-friction effect on concrete cubes with passive confinement. ASCE, 2018, 30(8):04018194.

[18] Jiafei Jiang*, Pingcheng Xiao and Benben Li. A novel triaxial test system for concrete under passive confinement. Journal of Testing and Evaluation, 2018,46(3): 913-923


授权专利:

1. 江佳斐,韩子叶,熊海贝.一种半预制式FRP筋混凝土延性简支梁,实用新型,专利号:ZL 2019 2 2499735.4,授权日2019-11-13

2. 江佳斐, 周英武,罗洁,钟一.具有延性的FRP筋混凝土梁. 实用新型, 专利号:ZL 2018 2 0424106.8,授权日2018-11-27

3江佳斐,肖平成,李奔奔。一种用于三轴试验的被动式约束加载装置. 中国,发明专利,

 ZL 2014 1 0613856.6,授权日2017-11-01

4. 江佳斐,余江滔,熊海贝. An FRP bars reinforced seawater and sea sand concrete-UHDCC composite beam and its construction method. Australian government innovation patent(澳大利亚革新), 2020101194,授权日2020-06-30


邀请讲座(Invited lecture):

1.“约束混凝土性能研究及其在FRP加固中的应用”受深圳大学周英武教授邀请,9/2015.

2. Constitutive Test for FRP Confined Concrete FROM 2D to 3D Invtied by Prof. Yufei WU in RMIT, 墨尔本,澳大利亚,7/2017


学术兼职

  1. 中国复合材料学会土木工程复合材料分会常务理事

  2. 中国建筑学会工业化建筑学术委员会副秘书长

  3. 上海市建筑学会建筑工业化专业委员会委员兼秘书长

  4. 上海市土木工程学会预制混凝土结构专业委员会委员兼秘书长

  5. Frontiers in Materials - Structural Materials 编委

  6. 《西南交通大学学报》青年编委


联系地址:上海市四平路1239号同济大学土木大楼B座  电话:021-65982666   传真:021-65982668  邮箱:ddms@tongji.edu.cn   邮编:200092

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