TY - GEN
T1 - Effective strengthening of RC frames with and without lap splice problems
AU - Erol, G.
AU - Demir, C.
AU - Ilki, A.
AU - Yuksel, E.
AU - Karadogan, H. F.
PY - 2006
Y1 - 2006
N2 - A series of tests were performed at ITU Earthquake and Structural Engineering Laboratory, for examining strengthening of poorly designed brittle brick infilled RC frame specimens by carbon fiber reinforced polymer (CFRP) composite fabrics. The aim of this experimental work was to reach an effective and economical strengthening technique without causing excessive disturbance to occupants. Seven 1/2 scale two story-one bay RC frames were tested under constant vertical load and reversed cyclic lateral loads. First three specimens were constructed with inadequate lap splices of longitudinal reinforcement of the columns at first and second story levels. The other four specimens were constructed with continuous longitudinal column reinforcement without any lap splicing problem. Each group of specimens included one reference bare frame, one infilled frame and one or two infilled frame specimens strengthened by CFRP fabrics. Two different methods were used for strengthening. For the first one, one ply of CFRP fabrics were pasted by epoxy over two diagonal directions of infill walls on both sides, while for the second method two plies of CFRP fabrics were applied only on one side of the specimens. Test results were evaluated in terms of lateral load capacities, stiffnesses and failure mechanisms. It is concluded that strengthening of the infill walls by applying CFRP composites in diagonal directions, provides significant enhancement in lateral strength and stiffness.
AB - A series of tests were performed at ITU Earthquake and Structural Engineering Laboratory, for examining strengthening of poorly designed brittle brick infilled RC frame specimens by carbon fiber reinforced polymer (CFRP) composite fabrics. The aim of this experimental work was to reach an effective and economical strengthening technique without causing excessive disturbance to occupants. Seven 1/2 scale two story-one bay RC frames were tested under constant vertical load and reversed cyclic lateral loads. First three specimens were constructed with inadequate lap splices of longitudinal reinforcement of the columns at first and second story levels. The other four specimens were constructed with continuous longitudinal column reinforcement without any lap splicing problem. Each group of specimens included one reference bare frame, one infilled frame and one or two infilled frame specimens strengthened by CFRP fabrics. Two different methods were used for strengthening. For the first one, one ply of CFRP fabrics were pasted by epoxy over two diagonal directions of infill walls on both sides, while for the second method two plies of CFRP fabrics were applied only on one side of the specimens. Test results were evaluated in terms of lateral load capacities, stiffnesses and failure mechanisms. It is concluded that strengthening of the infill walls by applying CFRP composites in diagonal directions, provides significant enhancement in lateral strength and stiffness.
UR - http://www.scopus.com/inward/record.url?scp=84865842233&partnerID=8YFLogxK
M3 - Conference contribution
AN - SCOPUS:84865842233
SN - 9781615670444
T3 - 8th US National Conference on Earthquake Engineering 2006
SP - 5865
EP - 5874
BT - 8th US National Conference on Earthquake Engineering 2006
T2 - 8th US National Conference on Earthquake Engineering 2006
Y2 - 18 April 2006 through 22 April 2006
ER -