EXPERIMENTS ON STRENGTHENED CONCRETE BEAMS WITH HYBRID STEEL-GRFP REBARS
Kamal, M., Safan, M., Salama, R. (2008). EXPERIMENTS ON STRENGTHENED CONCRETE BEAMS WITH HYBRID STEEL-GRFP REBARS. EKB Journal Management System, 31(2), 201-210. doi: 10.21608/erjm.2008.69535
Mounir M. Kamal; Mohamed A. Safan; Radwa A. Salama. "EXPERIMENTS ON STRENGTHENED CONCRETE BEAMS WITH HYBRID STEEL-GRFP REBARS". EKB Journal Management System, 31, 2, 2008, 201-210. doi: 10.21608/erjm.2008.69535
Kamal, M., Safan, M., Salama, R. (2008). 'EXPERIMENTS ON STRENGTHENED CONCRETE BEAMS WITH HYBRID STEEL-GRFP REBARS', EKB Journal Management System, 31(2), pp. 201-210. doi: 10.21608/erjm.2008.69535
Kamal, M., Safan, M., Salama, R. EXPERIMENTS ON STRENGTHENED CONCRETE BEAMS WITH HYBRID STEEL-GRFP REBARS. EKB Journal Management System, 2008; 31(2): 201-210. doi: 10.21608/erjm.2008.69535

EXPERIMENTS ON STRENGTHENED CONCRETE BEAMS WITH HYBRID STEEL-GRFP REBARS

ERJ. Engineering Research Journal
Article 10, Volume 31, Issue 2, April 2008, Page 201-210  XML PDF (1.04 MB)
Document Type: Original Article
DOI: 10.21608/erjm.2008.69535
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Authors
Mounir M. Kamal1; Mohamed A. Safan1; Radwa A. Salama2
1Civil Engineering Department, Faculiy of Engzneering, Minoufiya Universiiy
2Civil Engineer, Ministry of Water Resources and Irrigation, Shebin EL-Koom
Abstract
The corrosion problem occurs due to lack of protection given by the concrete cover. The problem
of steel reinforcement corrosion has regularly meant improving the quality of concrete, but this
approach has only limited success. The aim of the current work is to study the strengthening of
concrete beams by increasing the reinforcement area utilizing GFRP rebars instead of conventional
steel. In-house mannfacturing of FRP bars bas been described in this research using locally
available glass fiber roving and polyester to produce GFRP reinforcing bars. The produced rebars
are used as internal reinforcement in simply reinforced concrete beams. All test beams are
reinforced with steel rebars with different reinforcement ratios. The concrete cover of these beams
with low reinforcement ratios was removed and the longitudinal steel bars and stirmps were
exposed. The added GFRP rebars were fixed either inside or outside the stirmps and a suitable
cover was provided. Different materials including high strength concrete, cement mortar and a
special type of fibrous mortar known as engineered cemeutitious composite (ECC) mortar were
used in casting the cover. Some test beams were designed to fail in shear and were strengthened by
adding the extra GFRP bars and bonding extemal GFRP wraps to the beam sides in the shear span.
The test beams were 100*150*1050 mm and were tested in flexure under 4-point bending up till
failure. The structural behavior was investigated in terms of cracking and ultimate loads,
deflections, and cracking patterns
Keywords
RC beams; strengthening; hybrid reinforcement; GFRP bars; engineered cementitious composites; fibers
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