Characterization and acid resistance test of one-part geopolymer from fly ash and water treatment sludge

Characterization and acid resistance test of one-part geopolymer from fly ash and water treatment sludge

Development of geopolymers from wastes or by-products introduces a sustainable approach to replace ordinary Portland cement (OPC)-based concrete with an eco-material of lower green-house gases emissions. However, safety concerns related to the conventional two-part geopolymer has limited large-scale...

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Main Authors: Orbecido Aileen, Ho Vuong, Hinode Hirofumi, Kurniawan Winarto, Nguyen Long, Promentilla Michael Angelo
Format: Article
Language:English
Published: EDP Sciences 2018-01-01
Series:MATEC Web of Conferences
Online Access:https://doi.org/10.1051/matecconf/201815605003
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spelling doaj-6d7622c26a4e4bab991ad0fe1009858c2021-02-02T03:41:47ZengEDP SciencesMATEC Web of Conferences2261-236X2018-01-011560500310.1051/matecconf/201815605003matecconf_rsce2018_05003Characterization and acid resistance test of one-part geopolymer from fly ash and water treatment sludgeOrbecido AileenHo VuongHinode HirofumiKurniawan WinartoNguyen LongPromentilla Michael AngeloDevelopment of geopolymers from wastes or by-products introduces a sustainable approach to replace ordinary Portland cement (OPC)-based concrete with an eco-material of lower green-house gases emissions. However, safety concerns related to the conventional two-part geopolymer has limited large-scale applications of the product. In this context, a novel one-part geopolymer from coal fly ash and water treatment sludge has been presented. The transformation of raw materials to geopolymer was observed by FTIR, SEM and XRD analyses. Acid resistance test has proved that the new binder had great durability against sulphuric acid attack. After 28 days immersion in 5% H2SO4 solution, weight of all samples was hardly changed. Compressive strength, on the other hand, has not decreased but significantly increased as curing time increased. The properties were also compared to those of control samples cured in water. It was demonstrated that strong acid immersion did not create any noticeable effect on the weight and strength of one-part geopolymer system developed from coal fly ash and water treatment sludge.https://doi.org/10.1051/matecconf/201815605003
collection DOAJ
language English
format Article
sources DOAJ
author Orbecido Aileen
Ho Vuong
Hinode Hirofumi
Kurniawan Winarto
Nguyen Long
Promentilla Michael Angelo
spellingShingle Orbecido Aileen
Ho Vuong
Hinode Hirofumi
Kurniawan Winarto
Nguyen Long
Promentilla Michael Angelo
Characterization and acid resistance test of one-part geopolymer from fly ash and water treatment sludge
MATEC Web of Conferences
author_facet Orbecido Aileen
Ho Vuong
Hinode Hirofumi
Kurniawan Winarto
Nguyen Long
Promentilla Michael Angelo
author_sort Orbecido Aileen
title Characterization and acid resistance test of one-part geopolymer from fly ash and water treatment sludge
title_short Characterization and acid resistance test of one-part geopolymer from fly ash and water treatment sludge
title_full Characterization and acid resistance test of one-part geopolymer from fly ash and water treatment sludge
title_fullStr Characterization and acid resistance test of one-part geopolymer from fly ash and water treatment sludge
title_full_unstemmed Characterization and acid resistance test of one-part geopolymer from fly ash and water treatment sludge
title_sort characterization and acid resistance test of one-part geopolymer from fly ash and water treatment sludge
publisher EDP Sciences
series MATEC Web of Conferences
issn 2261-236X
publishDate 2018-01-01
description Development of geopolymers from wastes or by-products introduces a sustainable approach to replace ordinary Portland cement (OPC)-based concrete with an eco-material of lower green-house gases emissions. However, safety concerns related to the conventional two-part geopolymer has limited large-scale applications of the product. In this context, a novel one-part geopolymer from coal fly ash and water treatment sludge has been presented. The transformation of raw materials to geopolymer was observed by FTIR, SEM and XRD analyses. Acid resistance test has proved that the new binder had great durability against sulphuric acid attack. After 28 days immersion in 5% H2SO4 solution, weight of all samples was hardly changed. Compressive strength, on the other hand, has not decreased but significantly increased as curing time increased. The properties were also compared to those of control samples cured in water. It was demonstrated that strong acid immersion did not create any noticeable effect on the weight and strength of one-part geopolymer system developed from coal fly ash and water treatment sludge.
url https://doi.org/10.1051/matecconf/201815605003
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AT hovuong characterizationandacidresistancetestofonepartgeopolymerfromflyashandwatertreatmentsludge
AT hinodehirofumi characterizationandacidresistancetestofonepartgeopolymerfromflyashandwatertreatmentsludge
AT kurniawanwinarto characterizationandacidresistancetestofonepartgeopolymerfromflyashandwatertreatmentsludge
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AT promentillamichaelangelo characterizationandacidresistancetestofonepartgeopolymerfromflyashandwatertreatmentsludge
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