Abstract The paper describes the results of tests on prototype size reinforced concrete frame specimens which were designed to represent the column–beam connections in plane frames. The tests were devised to investigate the influence of fibre reinforced plastic (FRP) reinforcement applied to external surfaces adjacent to the beam–column connection on the behaviour of the test specimens under static loading. Of particular interest under static loading was the influence of FRP reinforcement on the strength and stiffness of beam–column connection. As a key to the study, the hybrid FRP composites of E-glass woven roving (WR) and plain carbon cloth, combined with chopped strand mat (CSM), glass fiber tape (GFT) with a vinyl-ester resin were designed to externally reinforce the joint of the concrete frame. The results show that retrofitting critical sections of concrete frames with FRP reinforcement can provide signification strengthening and stiffening to concrete frames and improve their behaviour under different types of loading. The selections of types of FRP and the architecture of composites in order to improve the bonding and strength of the retro-fitting were also discussed.
[1]
Vistasp M. Karbhari,et al.
Effect of Tow Sheet Composite Wrap Architecture on Strengthening of Concrete Due to Confinement: I—Experimental Studies
,
1995
.
[2]
Richard W. Furlong,et al.
Strength of Steel-Encased Concrete Beam Columns
,
1967
.
[3]
M. A. Erki,et al.
STRENGTHENING OF REINFORCED CONCRETE FLEXURAL MEMBERS USING EXTERNALLY APPLIED STEEL PLATES AND FIBRE COMPOSITE SHEETS - A SURVEY
,
1994
.
[4]
V. M. Karbhari,et al.
Strengthening of Concrete Column Stubs through Resin Infused Composite Wraps
,
1993
.
[5]
Robert Park,et al.
Strength of Concrete Filled Steel Tubular Columns
,
1969
.