Experimental and Numerical Study of the Strength Performance of Deep Beams with Perforated Thin Mild Steel Plates as Shear Reinforcement

This study aims to investigate a new shear reinforcement method which utilizes thin mild steel (TMS) plates as shear reinforcement in deep beams to replace conventional reinforcement. Thirteen reinforced concrete deep beam specimens with three different plate thicknesses and four varying perforated...

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Main Authors: Chai K.F., Woon K.S., Wong J.K., Lim J.H., Lee F.W., Lee Y.L.
Other Authors: 58078313400
Format: Article
Published: Multidisciplinary Digital Publishing Institute (MDPI) 2024
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Institution: Universiti Tenaga Nasional
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spelling my.uniten.dspace-341972024-10-14T11:18:23Z Experimental and Numerical Study of the Strength Performance of Deep Beams with Perforated Thin Mild Steel Plates as Shear Reinforcement Chai K.F. Woon K.S. Wong J.K. Lim J.H. Lee F.W. Lee Y.L. 58078313400 57205222734 57194870148 56655789700 56239335100 55597708000 deep beam mild steel plate perforated steel plate reinforced concrete shear reinforcement This study aims to investigate a new shear reinforcement method which utilizes thin mild steel (TMS) plates as shear reinforcement in deep beams to replace conventional reinforcement. Thirteen reinforced concrete deep beam specimens with three different plate thicknesses and four varying perforated hole arrangements on the TMS plates were experimentally tested to determine the load-carrying capacity and crack pattern. The experimental results indicate that the 2.0 mm thick TMS plate has the highest load-carrying capacity. Among the four different hole arrangements on the TMS plates, the perforated plates with a three-column hole arrangement show the best performance in terms of load-carrying capacity, with a 2.9% increment against the control beam specimen. The specimens also demonstrated compatible elastic stiffness with the control beam that used conventional shear links. This shows that TMS plates have the potential to replace conventional shear links in deep beams. This proposed method also changed the failure mode from conventional diagonal shear tension failure to a combination of flexural failure and shear deformation. A numerical model was developed and was found to have a good correlation with the experimental results, demonstrating potential for use in future parametric investigations on deep beams and cost reduction in future experimental work. � 2023 by the authors. Final 2024-10-14T03:18:23Z 2024-10-14T03:18:23Z 2023 Article 10.3390/app13148217 2-s2.0-85166234524 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85166234524&doi=10.3390%2fapp13148217&partnerID=40&md5=90927e636b100e342debefeb291fa93b https://irepository.uniten.edu.my/handle/123456789/34197 13 14 8217 All Open Access Gold Open Access Multidisciplinary Digital Publishing Institute (MDPI) Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
topic deep beam
mild steel plate
perforated steel plate
reinforced concrete
shear reinforcement
spellingShingle deep beam
mild steel plate
perforated steel plate
reinforced concrete
shear reinforcement
Chai K.F.
Woon K.S.
Wong J.K.
Lim J.H.
Lee F.W.
Lee Y.L.
Experimental and Numerical Study of the Strength Performance of Deep Beams with Perforated Thin Mild Steel Plates as Shear Reinforcement
description This study aims to investigate a new shear reinforcement method which utilizes thin mild steel (TMS) plates as shear reinforcement in deep beams to replace conventional reinforcement. Thirteen reinforced concrete deep beam specimens with three different plate thicknesses and four varying perforated hole arrangements on the TMS plates were experimentally tested to determine the load-carrying capacity and crack pattern. The experimental results indicate that the 2.0 mm thick TMS plate has the highest load-carrying capacity. Among the four different hole arrangements on the TMS plates, the perforated plates with a three-column hole arrangement show the best performance in terms of load-carrying capacity, with a 2.9% increment against the control beam specimen. The specimens also demonstrated compatible elastic stiffness with the control beam that used conventional shear links. This shows that TMS plates have the potential to replace conventional shear links in deep beams. This proposed method also changed the failure mode from conventional diagonal shear tension failure to a combination of flexural failure and shear deformation. A numerical model was developed and was found to have a good correlation with the experimental results, demonstrating potential for use in future parametric investigations on deep beams and cost reduction in future experimental work. � 2023 by the authors.
author2 58078313400
author_facet 58078313400
Chai K.F.
Woon K.S.
Wong J.K.
Lim J.H.
Lee F.W.
Lee Y.L.
format Article
author Chai K.F.
Woon K.S.
Wong J.K.
Lim J.H.
Lee F.W.
Lee Y.L.
author_sort Chai K.F.
title Experimental and Numerical Study of the Strength Performance of Deep Beams with Perforated Thin Mild Steel Plates as Shear Reinforcement
title_short Experimental and Numerical Study of the Strength Performance of Deep Beams with Perforated Thin Mild Steel Plates as Shear Reinforcement
title_full Experimental and Numerical Study of the Strength Performance of Deep Beams with Perforated Thin Mild Steel Plates as Shear Reinforcement
title_fullStr Experimental and Numerical Study of the Strength Performance of Deep Beams with Perforated Thin Mild Steel Plates as Shear Reinforcement
title_full_unstemmed Experimental and Numerical Study of the Strength Performance of Deep Beams with Perforated Thin Mild Steel Plates as Shear Reinforcement
title_sort experimental and numerical study of the strength performance of deep beams with perforated thin mild steel plates as shear reinforcement
publisher Multidisciplinary Digital Publishing Institute (MDPI)
publishDate 2024
_version_ 1814061171147276288