
个人简历:
杨家琦博士,九三学社社员,本科毕业于清华大学,博士毕业于香港大学,后在清华大学任博士后助理研究员,现任中国矿业大学(北京)力学与土木工程学院副教授,博士生导师,建工系副主任,主要研究方向为纤维增强复合材料(FRP)在结构工程中的应用。
联系方式:
yangjiaqi@cumtb.edu.cn
海淀区学院路丁11号中国矿业大学(北京)力建楼323,北京100083
主讲课程:
1. 混凝土结构与砌体结构设计
2. 荷载与结构设计方法(双语)
3. 钢结构基本原理
研究方向:
1. FRP加固工程结构
2. 新型FRP组合结构
在研课题:
1. 国家自然科学基金面上项目(52378207):复材约束的新型混凝土的受压破坏机制与图像化本构模型研究,2024-2027,主持。
2.国家自然科学基金联合基金项目(U22A20244):面向岛礁建设的超高性能海水海砂混凝土及新型结构体系研发,2023-2026,参与。
代表论文:
1. Yang JQ*, Li X, Li Z, Feng P, Wu L. Influence of fibre undulation on the biaxial behaviour of filament-wound FRP tubes in concrete-filled FRP tubes. Composite Structures. 2025; 370: 119388.
2. Yang JQ*, Liu B, Feng P. Ductile behaviour of prestressed CFRP plate strengthened RC beams: Concept and experimental verification. Engineering Structures. 2025; 337: 120548.
3. Yang JQ*, Wang H, Feng P, Ding G, Wu L. Experimental and numerical study of corrugated anchors for CFRP plates. Construction and Building Materials. 2024; 451: 138752.
4. Yang JQ*, Feng P, Liu B, Wang H, Zhao W, Hu L. Strengthening RC beams with mid-span supporting prestressed CFRP plates: An experimental investigation. Engineering Structures. 2022; 272:115022.
5. Li Z, Feng P, Yang JQ*. Analysis-oriented model for FRP tube-confined concrete: 3D interpretation of biaxial tube behaviour. Engineering Structures. 2022; 272:114987.
6. Yang JQ, Feng P.* Analysis-oriented model for FRP confined high-strength concrete: 3D interpretation of path dependency. Composite Structures. 2021; 278:114695.
7. Yang JQ*, Smith ST, Wu YF, Feng P. Strengthening single-bolt timber joints with externally bonded CFRP composites. Structures 2020; 28: 2671-2685.
8. Yang JQ, Feng P*. Analysis-oriented models for FRP-confined concrete: 3D interpretation and general methodology. Engineering Structures. 2020; 216:110749.
9. Yang JQ, Liu T*, Feng P. Enhancing flange local buckling strength of pultruded GFRP open-section beams. Composite Structures. 2020; 244:112313.
10. Yang JQ*, Smith ST, Wang Z, Feng P, Sirach N. Modelling of hysteresis behaviour of moment-resisting timber joints strengthened with FRP composites. International Journal of Mechanical Sciences. 2020; 179:105593.
11. Yang JQ, Smith ST*, Wang Z. Seismic behaviour of fibre-reinforced-polymer-and steel-strengthened timber connections. Advances in Structural Engineering. 2019; 22:502-18.
12. Yang JQ, Smith ST*, Wang Z, Lim YY. Numerical simulation of FRP-strengthened RC slabs anchored with FRP anchors. Construction and Building Materials. 2018; 172:735-50.
13. Yang JQ, Smith ST*, Feng P. Effect of FRP-to-steel bonded joint configuration on interfacial stresses: Finite element investigation. Thin-Walled Structures. 2013; 62:215-28.