Optimization of Rhombus Opening Area of Shear Walls On Tall Buildings

This research was designed to determine the optimum percentage and configuration of rhombus opening on shear wall of tall building. A residential tall building of 12-storeys having base size of 20m x 10m with height of floor of 3m was analyzed. In this paper, percentages of 12%, 24%, 36%, 42%, and 5...

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Main Authors: Syamsir A., Iskandar I., Malekzadah A.R., Alhayek A.
Other Authors: 57195320482
Format: Article
Published: Penerbit UTHM 2024
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spelling my.uniten.dspace-347272024-10-14T11:22:06Z Optimization of Rhombus Opening Area of Shear Walls On Tall Buildings Syamsir A. Iskandar I. Malekzadah A.R. Alhayek A. 57195320482 57216039120 58186454400 57221437286 base shear force lateral displacement rhombus opening Shear wall tall building This research was designed to determine the optimum percentage and configuration of rhombus opening on shear wall of tall building. A residential tall building of 12-storeys having base size of 20m x 10m with height of floor of 3m was analyzed. In this paper, percentages of 12%, 24%, 36%, 42%, and 54% concentric rhombus opening in a shear wall in tall buildings were modeled. The effect of the opening size on the lateral displacement, base shear, and stress at the opening was determined. It was found that the opening of 12% has less lateral displacement, base shear, and stress at the opening. This indicates that this opening delivers the best performance among the other percentages. Five models with the same percentage of rhombus opening of 12% at different configuration on the shear wall in tall buildings were modeled to determine the optimum configuration of opening on shear walls. It was found that Model-1 is the optimum configuration since this model has the lowest lateral displacement and stress at the opening. It can be concluded that Model-1 with 12% opening area is the optimum size and configuration to resist lateral force on tall buildings. � 2023 UTHM Publisher. All rights reserved. Final 2024-10-14T03:22:06Z 2024-10-14T03:22:06Z 2023 Article 10.30880/ijie.2023.15.01.033 2-s2.0-85152672336 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85152672336&doi=10.30880%2fijie.2023.15.01.033&partnerID=40&md5=9144502664b6ef8921a4eea1930055f4 https://irepository.uniten.edu.my/handle/123456789/34727 15 1 367 376 All Open Access Bronze Open Access Green Open Access Penerbit UTHM 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 base shear force
lateral displacement
rhombus opening
Shear wall
tall building
spellingShingle base shear force
lateral displacement
rhombus opening
Shear wall
tall building
Syamsir A.
Iskandar I.
Malekzadah A.R.
Alhayek A.
Optimization of Rhombus Opening Area of Shear Walls On Tall Buildings
description This research was designed to determine the optimum percentage and configuration of rhombus opening on shear wall of tall building. A residential tall building of 12-storeys having base size of 20m x 10m with height of floor of 3m was analyzed. In this paper, percentages of 12%, 24%, 36%, 42%, and 54% concentric rhombus opening in a shear wall in tall buildings were modeled. The effect of the opening size on the lateral displacement, base shear, and stress at the opening was determined. It was found that the opening of 12% has less lateral displacement, base shear, and stress at the opening. This indicates that this opening delivers the best performance among the other percentages. Five models with the same percentage of rhombus opening of 12% at different configuration on the shear wall in tall buildings were modeled to determine the optimum configuration of opening on shear walls. It was found that Model-1 is the optimum configuration since this model has the lowest lateral displacement and stress at the opening. It can be concluded that Model-1 with 12% opening area is the optimum size and configuration to resist lateral force on tall buildings. � 2023 UTHM Publisher. All rights reserved.
author2 57195320482
author_facet 57195320482
Syamsir A.
Iskandar I.
Malekzadah A.R.
Alhayek A.
format Article
author Syamsir A.
Iskandar I.
Malekzadah A.R.
Alhayek A.
author_sort Syamsir A.
title Optimization of Rhombus Opening Area of Shear Walls On Tall Buildings
title_short Optimization of Rhombus Opening Area of Shear Walls On Tall Buildings
title_full Optimization of Rhombus Opening Area of Shear Walls On Tall Buildings
title_fullStr Optimization of Rhombus Opening Area of Shear Walls On Tall Buildings
title_full_unstemmed Optimization of Rhombus Opening Area of Shear Walls On Tall Buildings
title_sort optimization of rhombus opening area of shear walls on tall buildings
publisher Penerbit UTHM
publishDate 2024
_version_ 1814060130619097088
score 13.214268