Assessment of Fly Ash-Rice Straw Ash-Laterite Soil Based Geopolymer Mortar Durability

Q3 Engineering

Open Civil Engineering Journal Pub Date : 2023-06-01 DOI:10.28991/cej-2023-09-06-012

P. R. Rangan, M. Tumpu, .. Mansyur, D. S. Mabui

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引用次数: 1

Abstract

Geopolymer is an inorganic form of alumina-silica that is synthesized through materials containing lots of silica (Si) and alumina (Al) originating from nature or from industrial by-products. The geopolymer binder is a two-component inorganic system consisting of solid components that have sufficient amounts of SiO2 and Al2O3 to form compounds such as fly ash, rice straw ash, pozzolan, laterite soil, slag, etc. This study aims to analyze the compressive strength, chemical compositions, and geopolymerization process of geopolymers produced from fly ash, rice straw ash, and lateritic soil bound with an alkaline activator, sodium hydroxide (NaOH), with a concentration of 12 M. The durability of the geopolymer mortar was determined by soaking for 3, 7, and 28 days using water curing and sulphate curing (Sodium Sulphate, Na2SO4, and Sulfuric Acid, H2SO4). The results showed that sodium hydroxide (NaOH) can release silica and alumina in the amorphous phase and can be used as a binder for geopolymer mortar made from straw ash, fly ash, and laterite soil without using oven heat, according to compressive strength, chemical compositions, and the geopolymerization process. The results of this study can be used to support the use of waste materials (fly ash and laterite soil) and local materials (straw ash) as geopolymer mortar-forming materials. Furthermore, it can aid in the development of eco-friendly (environmentally friendly) national infrastructure by eliminating the need for oven heat to initiate the polymerization reaction. However, this research can also be developed to increase the compressive strength of geopolymer mortar, which resembles that of conventional concrete in general. Doi: 10.28991/CEJ-2023-09-06-012 Full Text: PDF

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粉煤灰-稻草灰-红土基地聚合物砂浆耐久性评价

地聚合物是一种无机形式的氧化铝-二氧化硅，它是通过含有大量来源于自然界或工业副产品的二氧化硅(Si)和氧化铝(Al)的材料合成的。地聚合物粘结剂是由固体组分组成的双组分无机体系，固体组分中含有足量的SiO2和Al2O3，形成粉煤灰、稻草灰、火山灰、红土、矿渣等化合物。本研究旨在分析粉煤灰、稻秆灰和红土与碱性活化剂氢氧化钠(NaOH)结合的地聚合物的抗压强度、化学成分和地聚合过程。采用水固化和硫酸盐固化(硫酸钠，Na2SO4和硫酸，H2SO4)浸泡3天、7天和28天来测定地聚合物砂浆的耐久性。结果表明，根据抗压强度、化学成分和地聚合工艺，氢氧化钠(NaOH)可以释放出无定形相的二氧化硅和氧化铝，无需烤箱加热即可作为由秸秆灰、粉煤灰和红土制成的地聚合物砂浆的粘结剂。本研究结果可用于支持利用废弃物(粉煤灰和红土)和当地材料(秸秆灰)作为地聚合物砂浆成型材料。此外，它可以通过消除需要烤箱加热来引发聚合反应来帮助发展环保(环境友好)的国家基础设施。然而，这项研究也可以发展到提高地聚合物砂浆的抗压强度，它类似于一般的传统混凝土。Doi: 10.28991/CEJ-2023-09-06-012全文:PDF

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来源期刊

Open Civil Engineering Journal Engineering-Civil and Structural Engineering

CiteScore

1.90

自引率

0.00%

发文量

期刊介绍： The Open Civil Engineering Journal is an Open Access online journal which publishes research, reviews/mini-reviews, letter articles and guest edited single topic issues in all areas of civil engineering. The Open Civil Engineering Journal, a peer-reviewed journal, is an important and reliable source of current information on developments in civil engineering. The topics covered in the journal include (but not limited to) concrete structures, construction materials, structural mechanics, soil mechanics, foundation engineering, offshore geotechnics, water resources, hydraulics, horology, coastal engineering, river engineering, ocean modeling, fluid-solid-structure interactions, offshore engineering, marine structures, constructional management and other civil engineering relevant areas.