Mechanical Properties of Bamboo Fibre Composite Incorporating Pulverized Fuel Ash

Abstract. This study reports the findings of an experimental investigation for bamboo fibre (BF) reinforced concrete board. In this research, all specimens were prepared at 0.4 water/binder ratio. There were two series of specimens namely A series and B series. The A group utilizes only ordinary...

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Main Authors: Ali, Maisarah, Saad , Siti Asmahani, Khairuddin, Noor Farah Elyani, Sidek, Ammar Hamzi, Md. Salim, Muhammad Faiz
Format: Article
Language:English
Published: Trans Tech Publications, Switzerland 2015
Subjects:
Online Access:http://irep.iium.edu.my/46792/
http://irep.iium.edu.my/46792/
http://irep.iium.edu.my/46792/
http://irep.iium.edu.my/46792/1/AMR.1115.270.pdf
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spelling iium-467922016-07-18T06:55:10Z http://irep.iium.edu.my/46792/ Mechanical Properties of Bamboo Fibre Composite Incorporating Pulverized Fuel Ash Ali, Maisarah Saad , Siti Asmahani Khairuddin, Noor Farah Elyani Sidek, Ammar Hamzi Md. Salim, Muhammad Faiz TA401 Materials of engineering and construction Abstract. This study reports the findings of an experimental investigation for bamboo fibre (BF) reinforced concrete board. In this research, all specimens were prepared at 0.4 water/binder ratio. There were two series of specimens namely A series and B series. The A group utilizes only ordinary portland cement (OPC) as binder. Meanwhile, series B specimens uses binary binders, which were combination of OPC and pulverized fuel ash (PFA) with PFA to OPC ratio of 0.2. The performance of flat board plates with different percentage of bamboo fiber ranging from 0% to 5% and 20% PFA incorporation of cement weight were tested for bending strength (flexural) and compressive strength in accordance to BS 5669: Part 1 for particleboards. Specimens are cured in water curing tank and tested at 3, 7 and 28 days for compression test. Meanwhile for flexural strength test, the specimens are tested at 28 days. It is found that flexural and compressive strength increases with addition of BF. The optimum compressive and flexural strength at 28 days are recorded with 3% incorporation of BF for both PFA and control samples. Therefore, utilizing natural fibre and waste material for partial substitution of cement content in producing internal wall paneling system could contributes to the economic appeal and promoting sustainable construction approach. Keywords: Fibre reinforced concrete board; natural fibre; bamboo fibre; pulverized fuel ash; compressive strength; flexural strength Trans Tech Publications, Switzerland 2015-04 Article PeerReviewed application/pdf en http://irep.iium.edu.my/46792/1/AMR.1115.270.pdf Ali, Maisarah and Saad , Siti Asmahani and Khairuddin, Noor Farah Elyani and Sidek, Ammar Hamzi and Md. Salim, Muhammad Faiz (2015) Mechanical Properties of Bamboo Fibre Composite Incorporating Pulverized Fuel Ash. Advanced Materials Research, 1115. pp. 270-274. ISSN 1022-6680 http://www.scientific.net/AMR.1115.270 10.4028/www.scientific.net/AMR.1115.270
repository_type Digital Repository
institution_category Local University
institution International Islamic University Malaysia
building IIUM Repository
collection Online Access
language English
topic TA401 Materials of engineering and construction
spellingShingle TA401 Materials of engineering and construction
Ali, Maisarah
Saad , Siti Asmahani
Khairuddin, Noor Farah Elyani
Sidek, Ammar Hamzi
Md. Salim, Muhammad Faiz
Mechanical Properties of Bamboo Fibre Composite Incorporating Pulverized Fuel Ash
description Abstract. This study reports the findings of an experimental investigation for bamboo fibre (BF) reinforced concrete board. In this research, all specimens were prepared at 0.4 water/binder ratio. There were two series of specimens namely A series and B series. The A group utilizes only ordinary portland cement (OPC) as binder. Meanwhile, series B specimens uses binary binders, which were combination of OPC and pulverized fuel ash (PFA) with PFA to OPC ratio of 0.2. The performance of flat board plates with different percentage of bamboo fiber ranging from 0% to 5% and 20% PFA incorporation of cement weight were tested for bending strength (flexural) and compressive strength in accordance to BS 5669: Part 1 for particleboards. Specimens are cured in water curing tank and tested at 3, 7 and 28 days for compression test. Meanwhile for flexural strength test, the specimens are tested at 28 days. It is found that flexural and compressive strength increases with addition of BF. The optimum compressive and flexural strength at 28 days are recorded with 3% incorporation of BF for both PFA and control samples. Therefore, utilizing natural fibre and waste material for partial substitution of cement content in producing internal wall paneling system could contributes to the economic appeal and promoting sustainable construction approach. Keywords: Fibre reinforced concrete board; natural fibre; bamboo fibre; pulverized fuel ash; compressive strength; flexural strength
format Article
author Ali, Maisarah
Saad , Siti Asmahani
Khairuddin, Noor Farah Elyani
Sidek, Ammar Hamzi
Md. Salim, Muhammad Faiz
author_facet Ali, Maisarah
Saad , Siti Asmahani
Khairuddin, Noor Farah Elyani
Sidek, Ammar Hamzi
Md. Salim, Muhammad Faiz
author_sort Ali, Maisarah
title Mechanical Properties of Bamboo Fibre Composite Incorporating Pulverized Fuel Ash
title_short Mechanical Properties of Bamboo Fibre Composite Incorporating Pulverized Fuel Ash
title_full Mechanical Properties of Bamboo Fibre Composite Incorporating Pulverized Fuel Ash
title_fullStr Mechanical Properties of Bamboo Fibre Composite Incorporating Pulverized Fuel Ash
title_full_unstemmed Mechanical Properties of Bamboo Fibre Composite Incorporating Pulverized Fuel Ash
title_sort mechanical properties of bamboo fibre composite incorporating pulverized fuel ash
publisher Trans Tech Publications, Switzerland
publishDate 2015
url http://irep.iium.edu.my/46792/
http://irep.iium.edu.my/46792/
http://irep.iium.edu.my/46792/
http://irep.iium.edu.my/46792/1/AMR.1115.270.pdf
first_indexed 2023-09-18T21:06:35Z
last_indexed 2023-09-18T21:06:35Z
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