Abstract
An ecofriendly fiber reinforced polymer (FRP) had been used in the last decade to enhance the short concrete column’s strength and deformation capacity. This study involves the wrapping of FRP sheets with a thickness of 3 mm and 5 mm on a short column, and then the compressive strength is determined. The rectangular columns of size 150 mm × 300 mm are used for this study, and cast under the grades of M20 and M40 are wrapped with GFRP sheets at the thickness of 3 mm and 5 mm. These results are clarified at a specific thickness of the FRP-wrapped columns. It provides a maximum axial compressive strength, and Young’s modulus gets enhanced rigorously when it is to be compared to the normal concrete. This thesis deals with experimental studies of different parameters associated with wrapped glass fiber reinforced polymer (GFRP). In M20 grade, when the 3 mm wrapped specimen and the 5 mm wrapped specimen are compared, the specimen wrapped with 5 mm increases 5.182% more than the specimen wrapped with 3 mm. In M40 grade, when the 0 mm, 3 mm, and 5 mm wrapped specimens are compared, the specimen wrapped with 5 mm increases 2.47% more than the specimen wrapped with 0 mm. The 5 mm wrapping attains the maximum strength.
Highlights
Fiber reinforced polymer (FRP) is a composite material made up of a matrix reinforced with polymers
The M20 grade of beams is taken. e specimens consist of the three columns in which two beams are wrapped with the glass fiber reinforced polymer (GFRP) of thickness 3 mm and 5 mm; one beam remains unwrapped with any sheets
The wrapped beams will attain the maximum compressive strength when it is compared to the unwrapped beam. e test results are compared with the two thicknesses of the columns, and the maximum compressive strength is evaluated
Summary
Fiber reinforced polymer (FRP) is a composite material made up of a matrix reinforced with polymers. E use of externally bound FRP sheets and strips was Advances in Materials Science and Engineering developed recently as effective tools for rehabilitating and reinforcing concrete structures [2]. E external wrapping of reinforced concrete columns is a common technique for GFRP strengthening to increase the axial strength, sheer power, stiffness, and deflection. Ere have been numerous investigations into the actions of the uniaxial compressive loaded GFRP-wrapped concrete column, which shows that fibers should be aligned along with the cement core. A new analytical model was designed to predict the compressive strength of FRP-filled concrete columns concerning the precontainment axial load level. Several small concrete cylinders were loaded, subjected to a series of destructive tests of pure axial compression It was confined with plastic reinforced carbon fiber. For the different grades of concrete columns, the GFRP sheets of different thicknesses are wrapped, and the results are to be analyzed. e comparison was made regarding thickness of GFRP sheets, the maximum strength attained, and the wrapped columns and unwrapped columns
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
