English
首页
科研工作
· 研究方向及兴趣
· 纵向项目
· 横向项目
· 期刊论文
· 会议论文
· 专利授权
· 软件著作权登记
· 出版教材或专著
教学工作
· 主讲课程
· 教研项目
· 教研论文
获奖情况
· 科研获奖
· 教学获奖
· 指导学生获奖
· 其他奖励
毕业研究生
招生招聘
更多
吴宇飞
个人信息
Personal information
学位:
博士
职称:
教授
扫描关注
Scan attention
科研工作
中文主页
-
科研工作
研究方向及兴趣
包括混凝土结构;结构工程设计;复合结构和材料;FRP结构;结构修复等
纵向项目
─ More ─
[1] Jiangsu Transportation Bureau China, The new HB-FRP technology for strengthening RC structures,项目共同主持人,结题。,
[2] Australian Research Council Linkage-project,Development of sophisticated structural design guidelines for the new building product known as Rapid wall,项目主持人,结题;,
[3] City U Start-up grant,Combining Jacketing with Composite Plating - A New Hybrid Retrofitting Technique,项目主持人,结题;,
[4] City University of Hong Kong Strategic Research Grant,Improving the ductility of concrete members with non-ductile reinforcement,项目主持人,结题;,
[5] Hong Kong Research Grants CouncilGeneral Research Fund,Retrofitting of square/rectangular reinforced concrete columns by partial interaction plating,项目主持人,结题;,
[6] City University of Hong Kong Strategic Research Grant,Shear strength of composite beams in Rapidwall constructions,项目主持人,结题;,
[7] City University of Hong Kong Strategic Research Grant,Ductile concrete members with non-ductile reinforcement,项目主持人,结题;,
[8] Hong Kong Research Grants Council General Research Fund,Ductile concrete beams with non-ductile FRP reinforcement,项目主持人,结题;,
[9] City University of Hong Kong Strategic Research Grant,Experimental Investigation of the Fatigue Bond Behaviour of RC Beams Strengthened with Near-Surface Mounted Glass Fibre Reinforced Polymer Reinforcement,项目主持人,结题;,
[10] City University of Hong Kong Strategic Research Grant,Hybrid Bonding of FRP Laminates to Reinforced Concrete Structures,项目主持人,结题;,
横向项目
[1] 山东大学,HB-FRP加固梁加固效果评价,在研.
期刊论文
─ More ─
[1] Munir Muhammad Junaid, Kazmi Syed Minhaj Saleem, Wu YF, Patnaikuni Indubhushan. Stress Strain performance of steel spiral confined recycled aggregate concrete. Cement and Concrete Composites, 2020,108, 103535.,,.
[2] Tijani IA, Wu YF, Lim CW. Energy balance method for modeling ultimate strain of fiber‐reinforced polymer‐repaired concrete. Structural Concrete 21 (2), 804-820.,,.
[3] Jiang C, Wu YF. Axial Strength of Eccentrically Loaded FRP-Confined Short Concrete Columns. Polymers 12 (6), 1261.,,.
[4] Cao Y, Liu M, Wu YF. Effect of low strain rate on the axial behavior of concrete in CFRP-confined circular cylinders. Construction and Building Materials 255, 119351.,,.
[5] Huang XX, Zhou YW*, Xing F, WU YF, Sui L, Han NX. Reliability-based design of FRP flexural strengthened reinforced concrete beams: guidelines assessment and calibration. Engineering Structures, Volume 209. https://doi.org/10.1016/-j.engstruct.2019.109953 (SCI, 中科院2区, IF=3.084),,.
[6] Muhammad Junaid Munir, Syed Minhaj Saleem Kazmi, Yu-Fei Wu*, Indubhushan Patnaikuni, Yingwu Zhou, Feng Xing. Stress strain performance of steel spiral confined recycled aggregate concrete. Cement and Concrete Composite, Volume 108, April 2020, 103535. (SCI, 中科院1区, Top期刊, IF=5.172),,.
[7] Yu-Fei Wu*, Syed Minhaj Saleem Kazmi, Muhammad Junaid Munir, Yingwu Zhou, Feng Xing. Effect of Compression Casting Method on the Compressive Strength, Elastic Modulus and Microstructure of Rubber Concrete, in press, Journal of Cleaner Production. 2020. (SCI, 中科院1区, Top期刊, IF=6.395),,.
[8] WU YF, Zhou YW, Hu B, Huang X, Smith S*. Fused structures for safer and more economical constructions. Frontiers of Structural and Civil Engineering, 2020, 14:1-9. (SCI, 中科院3区, IF=1.272),,.
[9] Yang Wei Y, Jiang C, WU YF*. Confinement effectiveness of circular concrete-filled steel tubular columns under axial compression. Journal of Constructional Steel Research 2019; 158: 15-27. (SCI, 中科院2区, IF=2.65),,.
[10] Munir MJ, WU YF*, Kazmi SMS, Patnaikuni I, Zhou YW, Xing F. Stress-strain behavior of spirally confined recycled aggregate concrete: an approach towards sustainable design. Resources, Conservation and Recycling 2019; 146: 127-139. (SCI, 中科院1区, Top期刊, IF=7.044),,.
会议论文
─ More ─
[1] 1. Wu YF, Sun YB. The criterion method for arch dam optimisation. The 2nd National Symposium on Computational Mechanics, Shanghai, China, July, 1986 (in Chinese).,,.
[2] 2. Wu YF. A criterion method for the optimal design of arch dams. The 1st Chinese Youth Symposium on Computational Mechanics, Dalian, China, June 1986 (in Chinese).,,.
[3] 3. Lin SP, Guo XL, Wu YF. Intelligent data base for decision supporting system. The 2nd International Conference on Artificial Intelligence Application to Civil & Structural Engineering, Sept., 1991, Edinburgh, UK.,,.
[4] 4. Liaw CY, Wu YF, Chan ES. Dynamic instability of floating bodies in regular waves. The Pacific Congress on Marine Science and Technology, June., 1993, Beijing.,,.
[5] 5. Wu YF, Liaw CY, Chan ES. The occurrence of relative heave motion of floating bodies. The 4th International Offshore and Polar Engineering Conference, Apr. 10-15, 1994, Osaka, pp. 354-357.,,.
[6] 9. Huang Y, Wu YF. Ductility of hybrid fiber reinforced concrete. International Symposium on Innovation & Sustainability of Structures in Civil Engineering (ISISS'2005), Nanjing, China, 20-22, November 2005, pp. 2314-2326.,,.
[7] 6. Wu YF, Oehlers DJ, Griffith MC. Composite plated columns. International Conference on FRP Composites in Civil Engineering (CICE 2001), Dec. 12-14th, Hong Kong.,,.
[8] 7. Griffith MC, Wu YF, Oehlers DJ. Steel plated seismic retrofit for RC columns in soft-storey frames. The 2003 Conference on Earthquake Risk Mitigation, Australian Earthquake Engineering Society.,,.
[9] 10. Tang WC, Wu YF, Lo Y, Balendran RV. Shear strengthening of polystyrene aggregate concrete beams with near-surface mounted GFRP bars - some preliminary results. The 1st International Conference on Structural Condition Assessment, Monitoring and Improvement (SHM 05), December 12-14, 2005, Perth, W. Australia, pp. 307-316.,,.
[10] 8. Yang J, Wu YF. Interfacial stresses in plated concrete beams including shear deformation effect. International Symposium on Bond Behaviour of FRP in Structures (BBFS 2005), 7-9 December, Hong Kong, pp. 169-173.,,.
专利授权
[1] 外国申请专利,Hybrid bonding of FRP to concrete structures,US7,799,154 B2
[2] 外国申请专利,Preventing Debonding of Externally-bonded Steel Plates from Concrete Substrate through Surface Nanocrystallization,US 8,578,670 B2
[3] 外国申请专利,Structural Members with Improved Ductility,US 8,656,685 B2
[4] 外国申请专利,Method of Making Use of Surface Nanocrystallization for Building Reinforced Construction Structure,US 9,021,755 B2
[5] 外国申请专利,Structural Members with Improved Ductility and Method for Making Same,US 8,997,437 B2
[6] 外国申请专利,Construction Structure and method of making thereof (Preventing Debonding of Externally-bonded Reinforcement from Concrete Substrate through Variation of Cross-sectional Area),US 9,010,047 B2
出版教材或专著
[1] 《Structures strengthened with bonded composites》,ELSEVIER-WP WOODHEAD PUBLISHING
[2] 《SP-275: Fiber-Reinforced Polymer (FRP) Reinforcement for Concrete Structures》
[3] 《Chapter 4 - Bond of FRP-to-Concrete Systems, SP-275-23: Bond-slip relationship for externally-bonded FRP with limited bond length》
[4] 《Special Issue on Applications of Engineering Composites: Materials, Structures, and Interfaces》,SAGE Publishing
[5] 《Guide for retrofitting reinforced concrete columns by FRP jacketing》
[6] 《Strength of FRP-wrapped Concrete Columns》,VDM Verlag Dr. Müller Aktiengesellschaft & Co. KG