Numerical investigation of fully confined RC column with carbon fiber reinforced polymer when expose to fire

Despite the fact that reinforced concrete is widely recognized as a fire-resistant construction material, high temperatures exposure for an extended period of time can change the physical and chemical properties of steel and concrete, resulting in serious damage to RC structures and, ultimately, the...

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Main Authors: Zakaria, Nur Aqilah, Ismail, Ruqayyah, Ahmad Zakwan, Fariz Aswan, Ahmad, Hazrina, Rosle, Muhamad Firdaus, Mohd Hashim, Mohd Hisbany, Muhammad Rashid, Raizal Saifulnaz
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Published: Elsevier 2023
Online Access:http://psasir.upm.edu.my/id/eprint/109016/
https://linkinghub.elsevier.com/retrieve/pii/S1474706522002285
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Institution: Universiti Putra Malaysia
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spelling my.upm.eprints.1090162024-10-14T04:03:27Z http://psasir.upm.edu.my/id/eprint/109016/ Numerical investigation of fully confined RC column with carbon fiber reinforced polymer when expose to fire Zakaria, Nur Aqilah Ismail, Ruqayyah Ahmad Zakwan, Fariz Aswan Ahmad, Hazrina Rosle, Muhamad Firdaus Mohd Hashim, Mohd Hisbany Muhammad Rashid, Raizal Saifulnaz Despite the fact that reinforced concrete is widely recognized as a fire-resistant construction material, high temperatures exposure for an extended period of time can change the physical and chemical properties of steel and concrete, resulting in serious damage to RC structures and, ultimately, the collapse of the entire structural system. This poses a serious threat to human life. As a solution to these problems, carbon fiber reinforced polymer (CFRP) has become increasingly popular in buildings and infrastructure over the past few decades. It has been shown to be an effective application with reinforcing steel of reinforced concrete (RC) members, as it can significantly increase their load carrying capacity and ductility. When exposed to fire, the behaviour of reinforced concrete columns with full confined carbon fiber reinforced polymer (CFRP) will be the primary focus of this investigation. The study will be carried out using numerical analysis, specifically the Finite Element Method (FEM). The ABAQUS CAE software will be used to create three models for the purposes of this investigation. The results of the finite element modelling agreed very well with those of the experimental results, and the results of the numerical simulation indicate that when the elements are exposed to fire, the values of stress and strain decrease. Elsevier 2023-02 Article PeerReviewed Zakaria, Nur Aqilah and Ismail, Ruqayyah and Ahmad Zakwan, Fariz Aswan and Ahmad, Hazrina and Rosle, Muhamad Firdaus and Mohd Hashim, Mohd Hisbany and Muhammad Rashid, Raizal Saifulnaz (2023) Numerical investigation of fully confined RC column with carbon fiber reinforced polymer when expose to fire. Physics and Chemistry of the Earth, Parts A/B/C, 129. art. no. 103335. pp. 1-15. ISSN 1474-7065; ESSN: 1873-5193 https://linkinghub.elsevier.com/retrieve/pii/S1474706522002285 10.1016/j.pce.2022.103335
institution Universiti Putra Malaysia
building UPM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Putra Malaysia
content_source UPM Institutional Repository
url_provider http://psasir.upm.edu.my/
description Despite the fact that reinforced concrete is widely recognized as a fire-resistant construction material, high temperatures exposure for an extended period of time can change the physical and chemical properties of steel and concrete, resulting in serious damage to RC structures and, ultimately, the collapse of the entire structural system. This poses a serious threat to human life. As a solution to these problems, carbon fiber reinforced polymer (CFRP) has become increasingly popular in buildings and infrastructure over the past few decades. It has been shown to be an effective application with reinforcing steel of reinforced concrete (RC) members, as it can significantly increase their load carrying capacity and ductility. When exposed to fire, the behaviour of reinforced concrete columns with full confined carbon fiber reinforced polymer (CFRP) will be the primary focus of this investigation. The study will be carried out using numerical analysis, specifically the Finite Element Method (FEM). The ABAQUS CAE software will be used to create three models for the purposes of this investigation. The results of the finite element modelling agreed very well with those of the experimental results, and the results of the numerical simulation indicate that when the elements are exposed to fire, the values of stress and strain decrease.
format Article
author Zakaria, Nur Aqilah
Ismail, Ruqayyah
Ahmad Zakwan, Fariz Aswan
Ahmad, Hazrina
Rosle, Muhamad Firdaus
Mohd Hashim, Mohd Hisbany
Muhammad Rashid, Raizal Saifulnaz
spellingShingle Zakaria, Nur Aqilah
Ismail, Ruqayyah
Ahmad Zakwan, Fariz Aswan
Ahmad, Hazrina
Rosle, Muhamad Firdaus
Mohd Hashim, Mohd Hisbany
Muhammad Rashid, Raizal Saifulnaz
Numerical investigation of fully confined RC column with carbon fiber reinforced polymer when expose to fire
author_facet Zakaria, Nur Aqilah
Ismail, Ruqayyah
Ahmad Zakwan, Fariz Aswan
Ahmad, Hazrina
Rosle, Muhamad Firdaus
Mohd Hashim, Mohd Hisbany
Muhammad Rashid, Raizal Saifulnaz
author_sort Zakaria, Nur Aqilah
title Numerical investigation of fully confined RC column with carbon fiber reinforced polymer when expose to fire
title_short Numerical investigation of fully confined RC column with carbon fiber reinforced polymer when expose to fire
title_full Numerical investigation of fully confined RC column with carbon fiber reinforced polymer when expose to fire
title_fullStr Numerical investigation of fully confined RC column with carbon fiber reinforced polymer when expose to fire
title_full_unstemmed Numerical investigation of fully confined RC column with carbon fiber reinforced polymer when expose to fire
title_sort numerical investigation of fully confined rc column with carbon fiber reinforced polymer when expose to fire
publisher Elsevier
publishDate 2023
url http://psasir.upm.edu.my/id/eprint/109016/
https://linkinghub.elsevier.com/retrieve/pii/S1474706522002285
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