Alumni | English Engineering Education Program

Alumni Information

updated:2018/12/13
Name	Gong Fuyuan
Country of origin	China

M.Eng.

Division

Engineering and Policy for Sustainable Environment

Graduation

M.Eng., Mar 2013

Thesis title

Modeling and simulation of moisture condition and strain behavior for mortar under freeze-thaw cycles

Ph.D.

Division

Engineering and Policy for Sustainable Environment

Graduation

Ph.D., Sep 2015

Dissertation title

Modeling and Simulation of Frost Damage of Concrete and its Combined Effect with Fatigue Loadings

Country of residence

Japan

Address

E-mail

gongfy07[![at]]gmail[![dot]]com

Postal

Phone

URL

https://www.researchgate.net/profile/Fuyuan_Gong

Career

2018-03 ∼ 2015-10	Position	:	Research Fellow
	Organization	:	University of Tokyo
	Country	:	Japan
	Contacts	:
Current ∼ 2018-09	Position	:	â€œ100-Talents Program" Professor
	Organization	:	Zhejiang University
	Country	:	China
	Contacts	:
2018-09 ∼ 2018-04	Position	:	Assistant Professor
	Organization	:	Yokohama National University
	Country	:	Japan
	Contacts	:

Achievements
Awards	Gong Fuyuan, Japan Concrete Institute Award (Paper Award) (2014) Fuyuan Gong, Evdon Sicat, Tamon Ueda, Dawei Zhang. â€œMeso-scale Mechanical Model for Mortar Deformation under Freeze Thaw Cyclesâ€ Gong Fuyuan, One of best three papers, Journal of Advanced Concrete Technology, 2013 Gong Fuyuan, â€œAchievement Award Young Engineerâ€ from International Federation of Structural Concrete (fib), June 2017.
Journal	Gong Fuyuan, 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 Gong Fuyuan, 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 Gong Fuyuan, D. Zhang, E. Sicat and T. Ueda. Empirical estimation of pore size distribution in cement, mortar and concrete, Journal of Materials in Civil Engineering, Vol. 26, Issue 7, 2014, 04014023-1-11 Gong Fuyuan, 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
Conference	Gong Fuyuan, Y. Wang, T. Ueda and D. Zhang. Mesoscale simulation of damage for mortar and concrete under freeze-thaw cycles. RILEM Symposium on Concrete Modelling, Tsinghua University, Beijing, China, 2014.10 Gong Fuyuan, E. Sicat, T. Ueda, D. Zhang and Y. Wang. Physical model and mesoscopic simulation of mortar and concrete deformation under freeze/thaw cycles. 3rd International Conference on the Durability of Concrete Structures, Purdue University, West Lafayette, Indiana, USA, 2014.7 Gong Fuyuan, T. Ueda, D. Zhang. 3D phase diagram for pore water in cement-based materials, Proceedings of 3rd International Conference on Sustainable Construction Materials & Technologies, August, Kyoto, Japan, 2013 Gong Fuyuan, E. Sicat, T. Ueda. Mesoscopic deterioration model for mortar under freezing and thawing cycles, Proceedings of the First International Conference on Performance-based and Life-cycle Structural Engineering, Hong Kong, 2012.12 Gong Fuyuan, E. Sicat, T. Ueda. Estimation of pore size distribution of cement-based materials by using water adsorption isotherms, Proceedings of the 3rd International Conference on the Durability of Concrete Structures, UK, 2012.9 Gong Fuyuan, E. Sicat and T. Ueda. A two-stage model for complex strain behavior of mortar under freeze thaw cycles, JSCE Annual Conference, Hokkaido Branch, February, 2013, Hakodate, Japan, No. 69, E-25.