Coal ash foamed bricks stabilised with hydrated lime-activated GGBS (HL-GGBS) / Mohamad Ezad Hafez Mohd Pahroraji

Coal-fired thermal power plant produces million tonnes of coal ash as an industrial by product and is significant to be used as raw material for fabrication of bricks. Coal ash could potentially substitute the traditional materials i.e. clay and sand that were used to produce fired clay and cement s...

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Main Author: Mohd Pahroraji, Mohamad Ezad Hafez
Format: Thesis
Language:English
Published: 2017
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Online Access:https://ir.uitm.edu.my/id/eprint/27832/1/TP_MOHAMAD%20EZAD%20HAFEZ%20MOHD%20PAHRORAJI%20EC%2017_5.pdf
https://ir.uitm.edu.my/id/eprint/27832/
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Institution: Universiti Teknologi Mara
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spelling my.uitm.ir.278322022-03-08T04:51:52Z https://ir.uitm.edu.my/id/eprint/27832/ Coal ash foamed bricks stabilised with hydrated lime-activated GGBS (HL-GGBS) / Mohamad Ezad Hafez Mohd Pahroraji Mohd Pahroraji, Mohamad Ezad Hafez Fly ash Coal-fired thermal power plant produces million tonnes of coal ash as an industrial by product and is significant to be used as raw material for fabrication of bricks. Coal ash could potentially substitute the traditional materials i.e. clay and sand that were used to produce fired clay and cement sand bricks. Clay and sand were continuously extracted from depleting and dwindling non-renewable natural resources that could gradually degrade the environment in the long run. Meanwhile, lime and Portland cement are popular binding materials that could eventually damage and pollute the environment if continually used without control. Alternatively, ground granulated blast furnace slag (GGBS), an industrial by-product could be used as substitution. However, GGBS requires activation in an alkaline environment for self-cementitious acceleration. For now, the reliable source of alkali is lime or Portland cement. Most researchers have used either fly ash or bottom ash as raw material and either lime or Portland cement as binder. There is also less evidence in effort to lightweight the bricks that were using industrial by-products as raw materials. Therefore, the combination of fly ash and bottom ash as raw material with hydrated lime-activated GGBS (HL-GGBS) as binder and the incorporation of foam need to be investigated. In the present study, coal ash was used as raw material, HL-GGBS system was used as binder and foam was used to reduce weight for the fabrication of coal ash foamed bricks. Portland cement-activated GGBS (PC-GGBS) system was established for comparison to HL-GGBS system. The amount of water was constant at 30% of total weight of dry materials. Pre-foam foaming method was applied. The ratio of foaming agent to water was 1:30. Steel moulds size of 215 mm x 102.5 mm x 65 mm were used and the bricks were dried for forty eight (48) hours before demould and wrapped with cling film for several layers prior to air curing. The determination of compressive strength, density, flexural strength, water absorption, salt attack resistance, thermal conductivity, sound transmission loss and sound absorption were carried out. Traditional fired clay bricks and cement sand bricks were procured and underwent similar testing for comparison. It was discovered that the use of HLGGBS and PC-GGBS system as binder increase the strength of the bricks compared to the use of hydrated lime and Portland cement alone. However, the addition of foam has resulted in decrease of compressive and flexural strength, lower density, weak salt attack resistance, high water absorption, low value in sound transmission loss and thermal conductivity but provide insignificant effect to sound absorption. 2017 Thesis NonPeerReviewed text en https://ir.uitm.edu.my/id/eprint/27832/1/TP_MOHAMAD%20EZAD%20HAFEZ%20MOHD%20PAHRORAJI%20EC%2017_5.pdf ID27832 Mohd Pahroraji, Mohamad Ezad Hafez (2017) Coal ash foamed bricks stabilised with hydrated lime-activated GGBS (HL-GGBS) / Mohamad Ezad Hafez Mohd Pahroraji. PhD thesis, thesis, Universiti Teknologi MARA.
institution Universiti Teknologi Mara
building Tun Abdul Razak Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Mara
content_source UiTM Institutional Repository
url_provider http://ir.uitm.edu.my/
language English
topic Fly ash
spellingShingle Fly ash
Mohd Pahroraji, Mohamad Ezad Hafez
Coal ash foamed bricks stabilised with hydrated lime-activated GGBS (HL-GGBS) / Mohamad Ezad Hafez Mohd Pahroraji
description Coal-fired thermal power plant produces million tonnes of coal ash as an industrial by product and is significant to be used as raw material for fabrication of bricks. Coal ash could potentially substitute the traditional materials i.e. clay and sand that were used to produce fired clay and cement sand bricks. Clay and sand were continuously extracted from depleting and dwindling non-renewable natural resources that could gradually degrade the environment in the long run. Meanwhile, lime and Portland cement are popular binding materials that could eventually damage and pollute the environment if continually used without control. Alternatively, ground granulated blast furnace slag (GGBS), an industrial by-product could be used as substitution. However, GGBS requires activation in an alkaline environment for self-cementitious acceleration. For now, the reliable source of alkali is lime or Portland cement. Most researchers have used either fly ash or bottom ash as raw material and either lime or Portland cement as binder. There is also less evidence in effort to lightweight the bricks that were using industrial by-products as raw materials. Therefore, the combination of fly ash and bottom ash as raw material with hydrated lime-activated GGBS (HL-GGBS) as binder and the incorporation of foam need to be investigated. In the present study, coal ash was used as raw material, HL-GGBS system was used as binder and foam was used to reduce weight for the fabrication of coal ash foamed bricks. Portland cement-activated GGBS (PC-GGBS) system was established for comparison to HL-GGBS system. The amount of water was constant at 30% of total weight of dry materials. Pre-foam foaming method was applied. The ratio of foaming agent to water was 1:30. Steel moulds size of 215 mm x 102.5 mm x 65 mm were used and the bricks were dried for forty eight (48) hours before demould and wrapped with cling film for several layers prior to air curing. The determination of compressive strength, density, flexural strength, water absorption, salt attack resistance, thermal conductivity, sound transmission loss and sound absorption were carried out. Traditional fired clay bricks and cement sand bricks were procured and underwent similar testing for comparison. It was discovered that the use of HLGGBS and PC-GGBS system as binder increase the strength of the bricks compared to the use of hydrated lime and Portland cement alone. However, the addition of foam has resulted in decrease of compressive and flexural strength, lower density, weak salt attack resistance, high water absorption, low value in sound transmission loss and thermal conductivity but provide insignificant effect to sound absorption.
format Thesis
author Mohd Pahroraji, Mohamad Ezad Hafez
author_facet Mohd Pahroraji, Mohamad Ezad Hafez
author_sort Mohd Pahroraji, Mohamad Ezad Hafez
title Coal ash foamed bricks stabilised with hydrated lime-activated GGBS (HL-GGBS) / Mohamad Ezad Hafez Mohd Pahroraji
title_short Coal ash foamed bricks stabilised with hydrated lime-activated GGBS (HL-GGBS) / Mohamad Ezad Hafez Mohd Pahroraji
title_full Coal ash foamed bricks stabilised with hydrated lime-activated GGBS (HL-GGBS) / Mohamad Ezad Hafez Mohd Pahroraji
title_fullStr Coal ash foamed bricks stabilised with hydrated lime-activated GGBS (HL-GGBS) / Mohamad Ezad Hafez Mohd Pahroraji
title_full_unstemmed Coal ash foamed bricks stabilised with hydrated lime-activated GGBS (HL-GGBS) / Mohamad Ezad Hafez Mohd Pahroraji
title_sort coal ash foamed bricks stabilised with hydrated lime-activated ggbs (hl-ggbs) / mohamad ezad hafez mohd pahroraji
publishDate 2017
url https://ir.uitm.edu.my/id/eprint/27832/1/TP_MOHAMAD%20EZAD%20HAFEZ%20MOHD%20PAHRORAJI%20EC%2017_5.pdf
https://ir.uitm.edu.my/id/eprint/27832/
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