@article { author = {}, title = {SEISMIC PERFORMANCE OF RC FRAMES RETROFITTED BY FRP AT JOINTS USING A FLANGE-BONDED SCHEME}, journal = {Iranian Journal of Science and Technology Transactions of Civil Engineering}, volume = {39}, number = {C1}, pages = {103-123}, year = {2015}, publisher = {Shiraz University}, issn = {2228-6160}, eissn = {}, doi = {10.22099/ijstc.2015.2757}, abstract = {A new, FRP flange-bonded scheme, with practical application to 3D RC frames andwith the aim of relocating plastic hinges away from the joints is presented and its performance iscompared with that of the web-bonded scheme. For this purpose, nonlinear pushover analyses ofdetailed Finite Element (FE) models of retrofitted joints of a benchmark RC frame are carried out.The optimal thicknesses of the Fibre Reinforced Polymer (FRP) sheets for relocating the plastichinges are first determined. The moment-rotation curves of the joints are then utilised to create arepresenting model for the RC frame. Further, nonlinear pushover analyses are carried out on theretrofitted and the original frame to evaluate their capacity curves and seismic performanceparameters such as ductility, behaviour factor and performance points in relation to a specifieddemand earthquake. The results are then compared with those of the same frame when retrofittedwith the web-bonded scheme as well as with steel bracing. Results point to the marked superiorityof the flange-bonded scheme compared to the web-bonded scheme in different aspects including,capacity, ductility and the performance level and cost. The performance of the FRP flange-bondedscheme also compares well with that of the steel bracing method.}, keywords = {Seismic retrofitting,RC frames,FRP,joint,nonlinear static (pushover) analysis,performance level,web-bonded,flange-bonded,steel bracing}, url = {https://ijstc.shirazu.ac.ir/article_2757.html}, eprint = {https://ijstc.shirazu.ac.ir/article_2757_bf4b8957b91c6824cdd58121934838f0.pdf} }