Nanoclay effect on the ablative behaviour of glass fiber reinforced polymer and glass fiber reinforced geopolymer nanocomposite using radiography

The addition of nanoscale additives to polymers can increase their thermal resistance, making them suitable for a variety of engineering applications. In this investigation, nondestructive testing (NDT) was performed to observe the composite's post-fire test behaviour. This study investigated t...

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Main Authors: Shauqi, Ilham, Yaacob, Izzat Najmi, Hua, Tay Chai, Muhammad Amir, Siti Madiha, Rahim, Sapizah, Umar, Mohd Zaki, Abu Bakar, Asyraf Arif, Kapilan, Natesan, Mazlan, Norkhairunnisa
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Published: Zhongguo Hangkong Taikong Xuehui 2023
Online Access:http://psasir.upm.edu.my/id/eprint/109425/
https://www.airitilibrary.com/Article/Detail/P20140627004-N202401190010-00008
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Institution: Universiti Putra Malaysia
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spelling my.upm.eprints.1094252024-08-05T02:34:05Z http://psasir.upm.edu.my/id/eprint/109425/ Nanoclay effect on the ablative behaviour of glass fiber reinforced polymer and glass fiber reinforced geopolymer nanocomposite using radiography Shauqi, Ilham Yaacob, Izzat Najmi Hua, Tay Chai Muhammad Amir, Siti Madiha Rahim, Sapizah Umar, Mohd Zaki Abu Bakar, Asyraf Arif Kapilan, Natesan Mazlan, Norkhairunnisa The addition of nanoscale additives to polymers can increase their thermal resistance, making them suitable for a variety of engineering applications. In this investigation, nondestructive testing (NDT) was performed to observe the composite's post-fire test behaviour. This study investigated the ablative behaviour of glass fibre-reinforced epoxy and geopolymer with varying nanoclay concentrations. Additionally, after firing all of the samples, the thermal defects were evaluated with Infrared thermography method, Digital Detector Array (DDA) Radiography method. According to the ablation analysis, increasing the nanoclay concentration in nanocomposites was found to increase the samples' thermal ablation. In addition, geopolymer nanocomposite exhibited superior ablative behaviour compared to epoxy nanocomposite, with a back surface temperature of 51.34 °C compared to 176.86 °C for 7 wt nanoclay in epoxy nanocomposite. DDA analysis revealed that the nanocomposite surface structure contains fewer voids when a higher proportion of nanoclay is employed. Zhongguo Hangkong Taikong Xuehui 2023-12 Article PeerReviewed Shauqi, Ilham and Yaacob, Izzat Najmi and Hua, Tay Chai and Muhammad Amir, Siti Madiha and Rahim, Sapizah and Umar, Mohd Zaki and Abu Bakar, Asyraf Arif and Kapilan, Natesan and Mazlan, Norkhairunnisa (2023) Nanoclay effect on the ablative behaviour of glass fiber reinforced polymer and glass fiber reinforced geopolymer nanocomposite using radiography. Journal of Aeronautics, Astronautics and Aviation, 56 (1). pp. 77-83. ISSN 1990-7710 https://www.airitilibrary.com/Article/Detail/P20140627004-N202401190010-00008 10.6125/JoAAA.202403_56(1).08
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 The addition of nanoscale additives to polymers can increase their thermal resistance, making them suitable for a variety of engineering applications. In this investigation, nondestructive testing (NDT) was performed to observe the composite's post-fire test behaviour. This study investigated the ablative behaviour of glass fibre-reinforced epoxy and geopolymer with varying nanoclay concentrations. Additionally, after firing all of the samples, the thermal defects were evaluated with Infrared thermography method, Digital Detector Array (DDA) Radiography method. According to the ablation analysis, increasing the nanoclay concentration in nanocomposites was found to increase the samples' thermal ablation. In addition, geopolymer nanocomposite exhibited superior ablative behaviour compared to epoxy nanocomposite, with a back surface temperature of 51.34 °C compared to 176.86 °C for 7 wt nanoclay in epoxy nanocomposite. DDA analysis revealed that the nanocomposite surface structure contains fewer voids when a higher proportion of nanoclay is employed.
format Article
author Shauqi, Ilham
Yaacob, Izzat Najmi
Hua, Tay Chai
Muhammad Amir, Siti Madiha
Rahim, Sapizah
Umar, Mohd Zaki
Abu Bakar, Asyraf Arif
Kapilan, Natesan
Mazlan, Norkhairunnisa
spellingShingle Shauqi, Ilham
Yaacob, Izzat Najmi
Hua, Tay Chai
Muhammad Amir, Siti Madiha
Rahim, Sapizah
Umar, Mohd Zaki
Abu Bakar, Asyraf Arif
Kapilan, Natesan
Mazlan, Norkhairunnisa
Nanoclay effect on the ablative behaviour of glass fiber reinforced polymer and glass fiber reinforced geopolymer nanocomposite using radiography
author_facet Shauqi, Ilham
Yaacob, Izzat Najmi
Hua, Tay Chai
Muhammad Amir, Siti Madiha
Rahim, Sapizah
Umar, Mohd Zaki
Abu Bakar, Asyraf Arif
Kapilan, Natesan
Mazlan, Norkhairunnisa
author_sort Shauqi, Ilham
title Nanoclay effect on the ablative behaviour of glass fiber reinforced polymer and glass fiber reinforced geopolymer nanocomposite using radiography
title_short Nanoclay effect on the ablative behaviour of glass fiber reinforced polymer and glass fiber reinforced geopolymer nanocomposite using radiography
title_full Nanoclay effect on the ablative behaviour of glass fiber reinforced polymer and glass fiber reinforced geopolymer nanocomposite using radiography
title_fullStr Nanoclay effect on the ablative behaviour of glass fiber reinforced polymer and glass fiber reinforced geopolymer nanocomposite using radiography
title_full_unstemmed Nanoclay effect on the ablative behaviour of glass fiber reinforced polymer and glass fiber reinforced geopolymer nanocomposite using radiography
title_sort nanoclay effect on the ablative behaviour of glass fiber reinforced polymer and glass fiber reinforced geopolymer nanocomposite using radiography
publisher Zhongguo Hangkong Taikong Xuehui
publishDate 2023
url http://psasir.upm.edu.my/id/eprint/109425/
https://www.airitilibrary.com/Article/Detail/P20140627004-N202401190010-00008
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