Behavior of corrodedrc beams without stirrups repaired with cfrp sheets

Abdullah Al-Saidy; Sherif El-Gamal; Khlaifa Al-Jabri; Bilal Waris

doi:10.14455/isec.res.2017.81

Behavior of corrodedrc beams without stirrups repaired with cfrp sheets

Abdullah Al-Saidy, Sherif El-Gamal, Khlaifa Al-Jabri, Bilal Waris

Civil and Architectural Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

In reinforced concrete structures located in hot and humid areas, steel reinforcement is generally vulnerable to deterioration due to corrosion. Corrosion of reinforcement in many cases is considered the main cause of concrete structures deterioration, which in turn requires large budgets for repair and maintenance. This paper presents the experimental results of damaged/repaired reinforced concrete beams. The experimental program consisted of testing reinforced concrete rectangular beam specimen's with/without shear reinforcement and exposed to accelerated corrosion of the longitudinal steel reinforcement on the tension side. Bonding external U-shaped CFRP sheets to restore the strength loss due to corrosion repaired corroded beams without shear reinforcement. The test results showed that corroded beams without stirrups failed in a brittle manner with drop in maximum deflection at failure of approximately 60% compared to the uncorroded beam. Corroded beams with stirrups lost some strength, but failed in ductile manner. Using externally bonded U-shaped CFRP sheets restored the ductility of corroded beams without stirrups and prevented bond failure at the steel concrete interface due to the absence of internal stirrups.

Original language	English
Title of host publication	ISEC 2017 - 9th International Structural Engineering and Construction Conference
Subtitle of host publication	Resilient Structures and Sustainable Construction
Editors	Eugenio Pellicer, Jose M. Adam, Victor Yepes, Amarjit Singh, Siamak Yazdani
Publisher	ISEC Press
ISBN (Electronic)	9780996043748
DOIs	https://doi.org/10.14455/isec.res.2017.81
Publication status	Published - 2017
Event	9th International Structural Engineering and Construction Conference: Resilient Structures and Sustainable Construction, ISEC 2017 - Valencia, Spain Duration: Jul 24 2017 → Jul 29 2017

Publication series

Name	ISEC 2017 - 9th International Structural Engineering and Construction Conference: Resilient Structures and Sustainable Construction

Other

Other	9th International Structural Engineering and Construction Conference: Resilient Structures and Sustainable Construction, ISEC 2017
Country/Territory	Spain
City	Valencia
Period	7/24/17 → 7/29/17

Keywords

Composite materials
Corrosion
Rehabilitation
Repair
Strengthening
Transvers steel

ASJC Scopus subject areas

Civil and Structural Engineering
Building and Construction

Access to Document

10.14455/isec.res.2017.81

Cite this

Al-Saidy, A., El-Gamal, S., Al-Jabri, K., & Waris, B. (2017). Behavior of corrodedrc beams without stirrups repaired with cfrp sheets. In E. Pellicer, J. M. Adam, V. Yepes, A. Singh, & S. Yazdani (Eds.), ISEC 2017 - 9th International Structural Engineering and Construction Conference: Resilient Structures and Sustainable Construction (ISEC 2017 - 9th International Structural Engineering and Construction Conference: Resilient Structures and Sustainable Construction). ISEC Press. https://doi.org/10.14455/isec.res.2017.81

Behavior of corrodedrc beams without stirrups repaired with cfrp sheets. / Al-Saidy, Abdullah; El-Gamal, Sherif; Al-Jabri, Khlaifa et al.
ISEC 2017 - 9th International Structural Engineering and Construction Conference: Resilient Structures and Sustainable Construction. ed. / Eugenio Pellicer; Jose M. Adam; Victor Yepes; Amarjit Singh; Siamak Yazdani. ISEC Press, 2017. (ISEC 2017 - 9th International Structural Engineering and Construction Conference: Resilient Structures and Sustainable Construction).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Al-Saidy, A, El-Gamal, S, Al-Jabri, K & Waris, B 2017, Behavior of corrodedrc beams without stirrups repaired with cfrp sheets. in E Pellicer, JM Adam, V Yepes, A Singh & S Yazdani (eds), ISEC 2017 - 9th International Structural Engineering and Construction Conference: Resilient Structures and Sustainable Construction. ISEC 2017 - 9th International Structural Engineering and Construction Conference: Resilient Structures and Sustainable Construction, ISEC Press, 9th International Structural Engineering and Construction Conference: Resilient Structures and Sustainable Construction, ISEC 2017, Valencia, Spain, 7/24/17. https://doi.org/10.14455/isec.res.2017.81

Al-Saidy A, El-Gamal S, Al-Jabri K, Waris B. Behavior of corrodedrc beams without stirrups repaired with cfrp sheets. In Pellicer E, Adam JM, Yepes V, Singh A, Yazdani S, editors, ISEC 2017 - 9th International Structural Engineering and Construction Conference: Resilient Structures and Sustainable Construction. ISEC Press. 2017. (ISEC 2017 - 9th International Structural Engineering and Construction Conference: Resilient Structures and Sustainable Construction). doi: 10.14455/isec.res.2017.81

Al-Saidy, Abdullah ; El-Gamal, Sherif ; Al-Jabri, Khlaifa et al. / Behavior of corrodedrc beams without stirrups repaired with cfrp sheets. ISEC 2017 - 9th International Structural Engineering and Construction Conference: Resilient Structures and Sustainable Construction. editor / Eugenio Pellicer ; Jose M. Adam ; Victor Yepes ; Amarjit Singh ; Siamak Yazdani. ISEC Press, 2017. (ISEC 2017 - 9th International Structural Engineering and Construction Conference: Resilient Structures and Sustainable Construction).

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abstract = "In reinforced concrete structures located in hot and humid areas, steel reinforcement is generally vulnerable to deterioration due to corrosion. Corrosion of reinforcement in many cases is considered the main cause of concrete structures deterioration, which in turn requires large budgets for repair and maintenance. This paper presents the experimental results of damaged/repaired reinforced concrete beams. The experimental program consisted of testing reinforced concrete rectangular beam specimen's with/without shear reinforcement and exposed to accelerated corrosion of the longitudinal steel reinforcement on the tension side. Bonding external U-shaped CFRP sheets to restore the strength loss due to corrosion repaired corroded beams without shear reinforcement. The test results showed that corroded beams without stirrups failed in a brittle manner with drop in maximum deflection at failure of approximately 60% compared to the uncorroded beam. Corroded beams with stirrups lost some strength, but failed in ductile manner. Using externally bonded U-shaped CFRP sheets restored the ductility of corroded beams without stirrups and prevented bond failure at the steel concrete interface due to the absence of internal stirrups.",

keywords = "Composite materials, Corrosion, Rehabilitation, Repair, Strengthening, Transvers steel",

author = "Abdullah Al-Saidy and Sherif El-Gamal and Khlaifa Al-Jabri and Bilal Waris",

note = "Publisher Copyright: Copyright {\textcopyright} 2017 ISEC Press.; 9th International Structural Engineering and Construction Conference: Resilient Structures and Sustainable Construction, ISEC 2017 ; Conference date: 24-07-2017 Through 29-07-2017",

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PY - 2017

Y1 - 2017

N2 - In reinforced concrete structures located in hot and humid areas, steel reinforcement is generally vulnerable to deterioration due to corrosion. Corrosion of reinforcement in many cases is considered the main cause of concrete structures deterioration, which in turn requires large budgets for repair and maintenance. This paper presents the experimental results of damaged/repaired reinforced concrete beams. The experimental program consisted of testing reinforced concrete rectangular beam specimen's with/without shear reinforcement and exposed to accelerated corrosion of the longitudinal steel reinforcement on the tension side. Bonding external U-shaped CFRP sheets to restore the strength loss due to corrosion repaired corroded beams without shear reinforcement. The test results showed that corroded beams without stirrups failed in a brittle manner with drop in maximum deflection at failure of approximately 60% compared to the uncorroded beam. Corroded beams with stirrups lost some strength, but failed in ductile manner. Using externally bonded U-shaped CFRP sheets restored the ductility of corroded beams without stirrups and prevented bond failure at the steel concrete interface due to the absence of internal stirrups.

AB - In reinforced concrete structures located in hot and humid areas, steel reinforcement is generally vulnerable to deterioration due to corrosion. Corrosion of reinforcement in many cases is considered the main cause of concrete structures deterioration, which in turn requires large budgets for repair and maintenance. This paper presents the experimental results of damaged/repaired reinforced concrete beams. The experimental program consisted of testing reinforced concrete rectangular beam specimen's with/without shear reinforcement and exposed to accelerated corrosion of the longitudinal steel reinforcement on the tension side. Bonding external U-shaped CFRP sheets to restore the strength loss due to corrosion repaired corroded beams without shear reinforcement. The test results showed that corroded beams without stirrups failed in a brittle manner with drop in maximum deflection at failure of approximately 60% compared to the uncorroded beam. Corroded beams with stirrups lost some strength, but failed in ductile manner. Using externally bonded U-shaped CFRP sheets restored the ductility of corroded beams without stirrups and prevented bond failure at the steel concrete interface due to the absence of internal stirrups.

KW - Composite materials

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KW - Rehabilitation

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Behavior of corrodedrc beams without stirrups repaired with cfrp sheets

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