Performance of GFRP Sheets in Strengthening Concrete Beams in Flexure

Plain concrete beam repair and strengthening are increasingly important in structural strengthening and retrofitting. This study examines the glass fibre-reinforced polymer (GFRP) sheets in plain concrete beams under flexural behaviour by using its patching sheets. Through the implementation of a sy...

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Published in:JURNAL KEJURUTERAAN
Main Authors: Kudus, Sakhiah Abdul; Din, Siti Hajar Aisyah Mohd; Mohammed, M. S. Haji Sheik; Roopac, V.; Ahmad, Zakiah
Format: Article
Language:English
Published: UKM PRESS 2024
Subjects:
Online Access:https://www-webofscience-com.uitm.idm.oclc.org/wos/woscc/full-record/WOS:001295529700035
author Kudus
Sakhiah Abdul; Din
Siti Hajar Aisyah Mohd; Mohammed
M. S. Haji Sheik; Roopac
V.; Ahmad
Zakiah
spellingShingle Kudus
Sakhiah Abdul; Din
Siti Hajar Aisyah Mohd; Mohammed
M. S. Haji Sheik; Roopac
V.; Ahmad
Zakiah
Performance of GFRP Sheets in Strengthening Concrete Beams in Flexure
Engineering
author_facet Kudus
Sakhiah Abdul; Din
Siti Hajar Aisyah Mohd; Mohammed
M. S. Haji Sheik; Roopac
V.; Ahmad
Zakiah
author_sort Kudus
spelling Kudus, Sakhiah Abdul; Din, Siti Hajar Aisyah Mohd; Mohammed, M. S. Haji Sheik; Roopac, V.; Ahmad, Zakiah
Performance of GFRP Sheets in Strengthening Concrete Beams in Flexure
JURNAL KEJURUTERAAN
English
Article
Plain concrete beam repair and strengthening are increasingly important in structural strengthening and retrofitting. This study examines the glass fibre-reinforced polymer (GFRP) sheets in plain concrete beams under flexural behaviour by using its patching sheets. Through the implementation of a symmetrical four-point static loading technique, a series of tests were conducted on plain concrete beams that had been externally joined with GFRP sheets. These beams were subjected to rigorous testing until they reached their ultimate failure point. The experimental test consists of casting nine plain concrete beams with identical specifications. Three beams are utilised as control beams; three are reinforced with GFRP sheets measuring 50 mm x 100 mm, and another three are reinforced with GFRP sheets measuring 100 mm x 200 mm. The flexural test is designed to determine the tensile strength of concrete under bending. Compared to the control beams, the specimens strengthened with GFRP sheets demonstrated a significantly enhanced ultimate load capacity. The beams with larger GFRP sheets exhibited a higher ultimate load of 14.84 kN, while those with smaller sheets showed an ultimate load of 8.54 kN, marking an appreciable improvement in performance. Moreover, the smaller area GFRP-reinforced beams failed at a 45% higher shear stress compared to those with a larger area GFRP, indicating a differential impact based on the size of the reinforcement used. This study highlights the effectiveness of GFRP sheets in enhancing the structural performance of plain concrete beams, providing crucial insights into the benefits of different sizes of reinforcement.
UKM PRESS
0128-0198
2289-7526
2024
36
4
10.17576/jkukm-2024-36(4)-31
Engineering
gold
WOS:001295529700035
https://www-webofscience-com.uitm.idm.oclc.org/wos/woscc/full-record/WOS:001295529700035
title Performance of GFRP Sheets in Strengthening Concrete Beams in Flexure
title_short Performance of GFRP Sheets in Strengthening Concrete Beams in Flexure
title_full Performance of GFRP Sheets in Strengthening Concrete Beams in Flexure
title_fullStr Performance of GFRP Sheets in Strengthening Concrete Beams in Flexure
title_full_unstemmed Performance of GFRP Sheets in Strengthening Concrete Beams in Flexure
title_sort Performance of GFRP Sheets in Strengthening Concrete Beams in Flexure
container_title JURNAL KEJURUTERAAN
language English
format Article
description Plain concrete beam repair and strengthening are increasingly important in structural strengthening and retrofitting. This study examines the glass fibre-reinforced polymer (GFRP) sheets in plain concrete beams under flexural behaviour by using its patching sheets. Through the implementation of a symmetrical four-point static loading technique, a series of tests were conducted on plain concrete beams that had been externally joined with GFRP sheets. These beams were subjected to rigorous testing until they reached their ultimate failure point. The experimental test consists of casting nine plain concrete beams with identical specifications. Three beams are utilised as control beams; three are reinforced with GFRP sheets measuring 50 mm x 100 mm, and another three are reinforced with GFRP sheets measuring 100 mm x 200 mm. The flexural test is designed to determine the tensile strength of concrete under bending. Compared to the control beams, the specimens strengthened with GFRP sheets demonstrated a significantly enhanced ultimate load capacity. The beams with larger GFRP sheets exhibited a higher ultimate load of 14.84 kN, while those with smaller sheets showed an ultimate load of 8.54 kN, marking an appreciable improvement in performance. Moreover, the smaller area GFRP-reinforced beams failed at a 45% higher shear stress compared to those with a larger area GFRP, indicating a differential impact based on the size of the reinforcement used. This study highlights the effectiveness of GFRP sheets in enhancing the structural performance of plain concrete beams, providing crucial insights into the benefits of different sizes of reinforcement.
publisher UKM PRESS
issn 0128-0198
2289-7526
publishDate 2024
container_volume 36
container_issue 4
doi_str_mv 10.17576/jkukm-2024-36(4)-31
topic Engineering
topic_facet Engineering
accesstype gold
id WOS:001295529700035
url https://www-webofscience-com.uitm.idm.oclc.org/wos/woscc/full-record/WOS:001295529700035
record_format wos
collection Web of Science (WoS)
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