弓扶元
兼职硕士生导师
研究员
gongfy@zju.edu.cn
河海学院
个人简介

学习经历:

2007.09 - 2011.07:清华大学,水利水电工程系,学士

2011.10 - 2013.03:日本北海道大学,土木工程系,硕士

2013.04 - 2015.09:日本北海道大学,土木工程系,博士

工作经历:

2012.08 - 2012.10:美国普林斯顿大学,访问学者

2014.04 - 2016.03:日本学术振兴会(JSPS)特别研究员

2015.10 - 2018.03:日本东京大学,博士后研究员

2018.04 - 2018.09:日本横滨国立大学,助理教授

2018.09 - 至今:浙江大学建筑工程学院,百人计划研究员,博士生导师。

研究方向:

  混凝土耐久性、低碳混凝土结构、材料结构多尺度计算、寿命预测及智能运维。

  招生计划:

  2023-2024年:拟招收硕士生2-5名

  请感兴趣的同学发送个人简历至gongfy@zju.edu.cn,欢迎咨询交流。

  人才培养:

  已毕业:硕士4人,本科4人。

  在读:硕士6人,博士3人。

 

论文情况

(SCI Journals) (Total: 53, First: 21, Corresponding: 12)

[1]     S. Wang, P. Xia, Z. Wang, T. Meng, F. Gong*, Intelligent mix design of recycled brick aggregate concrete based on swarm intelligence, Journal of Building Engineering, 71 (2023) 106508.

[2]     D. Zhi, F. Gong*, Z. Wang, Y. Zhao, T. Ueda, RBSM-based mesoscale study of frost deterioration for recycled concrete considering air-entrainment in old and new mortar, Journal of Building Engineering, 68 (2023) 106210.

[3]     F. Gong, L. Yang, Z. Wang, J. Jia, Y. Ning, T. Ueda, Mesoscale Discrete Analysis of Mechanical Properties of Recycled Aggregate Concrete Based on Voronoi Mesh, Construction and Building Materials, 370 (2023) 130649.

[4]     A. Shpak, F. Gong*, S. Jacobsen, Frost durability of high-volume fly ash concrete: Relation liquid transport - damage, Cement and Concrete Research, 163 (2023) 107017.

[5]     Z. Wang, K. Maekawa, F. Gong, Space Averaging of Electric Field accompanying Corrosion of Reinforcement and its Verification by Pseudo-Concrete, Journal of Advanced Concrete Technology, 21 (2023) 25-41.

[6]     Y. Peng, F. Gong*, Z. Wang, Y. Zhao, W. Jin, T. Meng, K. Maekawa, Experimental study on time-dependent DC resistivity of cement-based material considering microstructure and ion concentration, Construction and Building Materials, 363 (2023) 129830.

[7]     Y. Peng, Z. Wang, F. Gong*, Y. Zhao, T. Meng, W. Jin, K. Maekawa, Spatial characteristics of stray current corrosion of reinforcing bars in pseudo concrete, Structural Concrete, 24 (2023) 374-388.

[8]     F. Gong, S. Jacobsen, P. Li, Z. Wang, K. Maekawa, M. Koniorczyk, Modeling of path-dependent phase change in sorption and freezing of pore water for cementitious materials, Journal of Building Engineering, (2022) 104969.

[9]     F. Gong, D. Zhi, Y. Zhou, Q. Zeng, Z. Wang, Empirical modeling of pore size distribution for rock materials with its impact on pore water freezing, Cold Regions Science and Technology, (2022) 103619.

[10]  F. Gong, Z. Wang, Y. Zhou, J. Wang, L. Yang, T. Ueda, Mesoscale simulation of frost damage to rock material based on Rigid Body Spring Method, Cold Regions Science and Technology, 201 (2022) 103621.

[11]  F. Gong, D. Zhi, J. Jia, Z. Wang, Y. Ning, B. Zhang, T. Ueda, Data-Based Statistical Analysis of Laboratory Experiments on Concrete Frost Damage and Its Implications on Service Life Prediction, Materials, 15 (2022) 6282.

[12]  J. Jiang, D. Zhang, F. Gong*, D. Zhi, Prediction of Ultrasonic Pulse Velocity for Cement, Mortar, and Concrete through a Multiscale Homogenization Approach, Materials, 15 (2022) 3241.

[13]  Q. Wu, F. Gong*, D. Zhi, Y. Zhao, Removing attached mortar from recycled aggregate by the combined freeze–thaw cycles and high-temperature drying, Structural Concrete, 23 (2022) 3126-3139.

[14]  Z. Wang, K. Maekawa, H. Takeda, F. Gong, Multi-ion kinetics in pseudo-concrete electrolyte associated with macro-cell corrosion, Cement and Concrete Composites, (2022) 104690.

[15]  H. Lin, Y. Han, S. Liang, F. Gong, S. Han, C. Shi, P. Feng, Effects of low temperatures and cryogenic freeze-thaw cycles on concrete mechanical properties: A literature review, Construction and Building Materials, 345 (2022) 128287.

[16]  Q. Zeng, N. Jike, C. Xu, R. Yang, Y. Peng, J. Wang, F. Gong, M. Zhang, Y. Zhao, Total recycling of low-quality urban-fringe construction and demolition waste towards the development of sustainable cement-free pervious concrete: The proof of concept, Journal of Cleaner Production, 352 (2022) 131464.

[17]  Y. Wang, Y. Zhao, F. Gong, J. Dong, K. Maekawa, Developing a three-dimensional finite element analysis approach to simulate corrosion-induced concrete cracking in reinforced concrete beams, Engineering Structures, 257 (2022) 114072.

[18]  B. Zeng, Y. Wang, F. Gong, K. Maekawa, Corrosion-Induced Cracking Pattern Analysis of RC Beam under Sustained Load Considering the Poromechanical Characteristics of Corrosion Products, Buildings, 12 (2022) 2256.

[19]  B. Zeng, Y. Yang, F. Gong, K. Maekawa, Corrosion Crack Morphology and Creep Analysis of Members Based on Meso-Scale Corrosion Penetration, Materials, 15 (2022) 7338.

[20]  F. Gong, Z. Wang, J. Xia, K. Maekawa, Coupled thermo-hydro-mechanical analysis of reinforced concrete beams under the effect of frost damage and sustained load, Structural Concrete, 22 (2021) 3430-3445.

[21]  W. Huang, F. Gong*, W. Jin, K. Maekawa, Numerical analysis of high and low-cycle flexural fatigue for reinforced concrete beams under full-range of varying amplitudes, Structural Concrete, 22 (2021) 2167-2183.

[22]  Z. Wang, K. Maekawa, H. Takeda, F. Gong, Numerical simulation and experiment on the coupled effects of macro-cell corrosion and multi-ion equilibrium with pseudo structural concrete, Cement and Concrete Composites, 123 (2021) 104181.

[23]  Z. Wang, F. Gong, T. Ueda, Modeling and Simulation on Static and Fatigue Behaviors of Intact and Frost Damaged Concrete with Ice-strengthening Effects, Journal of Advanced Concrete Technology 19(4) (2021) 346-358.

[24]  D. Zhang, Y. Zeng, J. Chen, F. Gong, C. Liu, Bond properties of steel angles in concrete filled steel tubes, Journal of Constructional Steel Research 182 (2021) 106653.

[25]  Z. Wang, D. Zhang, F. Gong, S. Mehrpay, T. Ueda, Multiscale Modeling and Simulation of Ice-Strengthening Effects in Mesocracks of Saturated Frost-Damaged Concrete under Freezing Temperature, Journal of Materials in Civil Engineering 33(2) (2021) 04020443.

[26]  F. Gong, Y. Takahashi, I. Segawa and K. Maekawa. Mechanical Properties of Concrete with Smeared Cracking by Alkali-silica Reaction and Freeze-thaw Cycles, Cement and Concrete Composites 111 (2020) 103623 (SCI)

[27]  Y. Wang, T. Ueda, F. Gong, D. Zhang, Z. Wang, Experimental Examination of Electrical Characteristics for Portland Cement Mortar Frost Damage Evaluation, Materials, 13 (2020) 1258 (SCI)

[28]  Z. Wang, H. Hayashida, D. Zhang, F. Gong* and T. Ueda. Structural Behaviors Evaluation of RC Beam under Frost Damage – A Methodology with Meso-macro Material/bond Simulation and Integrating into Structural Analysis, Engineering Structures, 206 (2020) (SCI)

[29]  K. Maekawa, Y. Okano, F. Gong. Space-Averaged Non-Local Analysis of Electric Potential for Polarization Reactions of Reinforcing Bars in Electrolytes, Journal of Advanced Concrete Technology, 17 (2019) 616-627 (SCI)

[30]  Y. Wang, C. Zhou, X. Li, Z. Lu and F. Gong. Experimental study on steel plates with and without notches strengthened by CFRP sheets, Journal of Adhesion Science and Technology 2019, 1-18 (SCI)

[31]  Z. Wang, D. Zhang, F. Gong*, S. Mehrpay and T. Ueda. Mesoscale Simulation of Bond Behaviors between Concrete and Reinforcement under the Effect of Frost Damage with Axisymmetric Rigid Body Spring Model, Construction and Building Materials 2019, 215, 886-897 (SCI)

[32]  Z. Wang, F. Gong*, D. Zhang, Y. Wang and T. Ueda. RBSM Based Analysis on Mechanical Degradation of Concrete under Frost Action – A General Prediction with Various Cement Grades and Lowest Temperatures, Construction and Building Materials 2019,211, 744-755 (SCI)

[33]  M. Ren, F. Gong* and K. Maekawa. Numerical Investigation of RC Beam Bending with Non-Uniform Frost Damage in Compression and Tension Sides, Structure and Infrastructure Engineering 2019:1-17 (SCI)

[34]  F. Gong and K. Maekawa. Proposal of poro-mechanical coupling among ASR, corrosion and frost action for damage assessment of structural concrete with water, Engineering Structures 2019, 188, 418-429 (SCI)

[35]  Y. Wang, T. Ueda, F. Gong and D. Zhang. Meso-scale mechanical deterioration of mortar due to sodium chloride attack, Cement and Concrete Composites 2019, 96, 163-173. (SCI)

[36]  F. Gong and S. Jacobsen. Modeling of Water Transport in Highly Saturated Concrete with Wet Surface During Freeze/thaw, Cement and Concrete Research, 2019, 115, 294-307. (SCI)

[37]  F. Gong, M. Ren and K. Maekawa. Simulation of Spatially Non-Uniform Frost Damage in RC Beams Under Various Exposure and Confining Conditions, Engineering Structures 2018, 176, 859-870. (SCI)

[38]  F. Gong, Y. Takahashi and K. Maekawa. Multi-scale Computational Modeling for Concrete Damage by Mixed Pore Pressures – Case of Coupled Alkali Silica Reaction and Cyclic Freeze/thaw, Engineering Computations 2018, 35 (6), 2367-2385. (SCI)

[39]  F. Gong, T. Ueda and D. Zhang. 2D RBSM Based Micro-Mesoscale Study of Mechanical Strengthening /Damaging Effect to Concrete by Frost Action, Structural Concrete, 2018, 19 (4), 1131-1145. (SCI)

[40]  F. Gong and K. Maekawa. Multi-scale Simulation of Freeze-thaw Damage to RC Column and its Restoring Force Characteristics, Engineering Structures, 2018, 156, 522-536 (SCI)

[41]  Z. Wang, F. Gong, D. Zhang, H. Hayashida and T. Ueda. Mesoscale RBSM Simulation of Non-Uniform Frost Damage for Concrete Considering Coupled Heat and Moisture Transfer with Verification by CT Imaging, Construction and Building Materials 2017, 157, 203-213 (SCI)

[42]  F. Gong, Y. Takahashi and K. Maekawa. Strong Coupling of Freeze-Thaw Cycles and Alkali Silica Reaction - Multi-scale Poro-mechanical Approach to Concrete Damages -, Journal of Advanced Concrete Technology 2017, 15(7), 346-367 (SCI)

[43]  F. Gong, T. Ueda, Y. Wang, D. Zhang and Z. Wang. Mesoscale Simulation of Fatigue Behavior of Concrete Materials Damaged by Freeze-thaw Cycles, Construction and Building Materials, 2017, 144, 702-716 (SCI)

[44]  Y. Wang, F. Gong, D. Zhang and T. Ueda. Estimation of ice formation in mortar saturated with sodium chloride solutions, Construction and Building Materials, 2017, 144, 238-251 (SCI)

[45]  F. Gong, Y. Wang, T. Ueda and D. Zhang. Modeling and mesoscale simulation of ice-strengthened mechanical properties of concrete at low temperatures, Journal of Engineering Mechanics (ASCE), 2017, 04017022-1-16 (SCI)

[46]  Y. Wang, F. Gong, T. Ueda and D. Zhang. Estimation of ice content in mortar based on electrical measurements, Journal of Advanced Concrete Technology, Vol. 14, No. 2, 2016, 35-46 (SCI)

[47]  F. Gong, D. Zhang, T. Ueda and E. Sicat. Closure to Discussion of "Empirical estimation of pore size distribution in cement, mortar and concrete", Journal of Materials in Civil Engineering (ASCE), Vol. 27, Issue 11, 2015, 07015008-1-2 (SCI)

[48]  F. Gong, Y. Wang, D. Zhang and T. Ueda. Mesoscale simulation of deformation for mortar and concrete under cyclic freezing and thawing stress, Journal of Advanced Concrete Technology, Vol. 13, No. 6, 2015, 291-304 (SCI)

[49]  F. Gong, E. Sicat, T. Ueda and D. Zhang. Stress analysis for concrete materials under multiple freeze-thaw cycles, Journal of Advanced Concrete Technology, Vol. 13, No. 3, 2015, 124-134 (SCI)

[50]  F. Gong, D. Zhang, E. Sicat and T. Ueda. Empirical estimation of pore size distribution in cement, mortar and concrete, Journal of Materials in Civil Engineering (ASCE), Vol. 26, Issue 7, 2014, 04014023-1-11 (SCI)

[51]  E. Sicat, F. Gong, T. Ueda and D. Zhang. Experimental investigation of the deformational behavior of the interfacial transition zone (ITZ) of mortar during freezing and thawing cycles. Constr. Build. Mater., Vol. 65, 2014, 122-131 (SCI)

[52]  E. Sicat, F. Gong, D. Zhang, T. Ueda. Change of coefficient of thermal expansion of mortar due to damage by freeze thaw cycles, Journal of Advanced Concrete Technology, Vol. 11, No. 12, 2013, 333-346 (SCI)

[53]  F. Gong, E. Sicat, T. Ueda and D. Zhang. Meso-scale mechanical model for mortar deformation under freeze thaw cycles, Journal of Advanced Concrete Technology, Vol. 11, No. 2, 2013, 49-60 (SCI)


 

成果奖励

  1. Journal of Advanced Concrete Technology (SCI) 副主编

  2. Buildings (SCI) 编委

  3. Journal of Intelligent Construction 副主编

  4. International Journal of Structural Engineering 副主编

  5. 国际结构混凝土协会奖 (fib Achievement Award for Young Engineers), EPFL, Switzerland, 2017

  6. 日本学术振兴会(Japan Society for the Promotion of Science),JSPS特别研究员, 2014-2016

  7. 日本混凝土工学会(Japan Concrete Institute, JCI)学会奖(论文类)2014

  8. JCI Journal of Advanced Concrete Technology (SCI) 年度三篇最佳论文之一, 2013


 

研究方向

混凝土耐久性、低碳混凝土结构、材料结构多尺度计算、寿命预测及智能运维