Study on Setting & Strength Characteristic of GGBS based Geopolymer Concrete by Blending of Fly Ash and Metakaoline

International Journal of ChemTech Research Pub Date : 2020-01-01 DOI:10.20902/ijctr.2019.130114

A. Kashyap, T. Rao, N. Rao

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Abstract

Carbon dioxide is liberated in huge amounts by the manufacturing of Portland Pozzolana Cement. Normally, conventional concrete is manufactured with Portland cement, which acts as a binder. The production of cement emits CO2 into the atmosphere, which is a green house gas and causes the environmental pollution. Considering this as a serious environmental problem, there is a need to develop sustainable alternatives to Portland cement utilizing the industrial byproducts such as fly ash, ground granulated blast furnace slag and Metakaoline which are pozzolonic in nature. It has been established that fly ash can replace cement partially. In this context, a new material was developed known as ‖Geopolymer‖. In this study, the various parameters on the short term engineering properties of fresh and hardened properties of Geopolymer Mortar were studied. In the present investigation, cement is replaced by geopolymer source material and water is replaced by alkaline activator consisting of Sodium Silicate and Sodium Hydroxide of molarity (12M). The ratio of sodium silicate to sodium hydroxide adopted was 2.5. The test results showed that final setting time decreases as the GGBS content in the mix increases and also increase in compressive strength. Where as in the case of metakaoline, as the content increases, there is a decrease in compressive strength and setting times of the geopolymer concrete.

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粉煤灰与偏高岭土掺合GGBS基地聚合物混凝土凝结特性及强度特性研究

波特兰波佐拉那水泥的生产释放了大量的二氧化碳。通常，传统的混凝土是用波特兰水泥制造的，它起到粘合剂的作用。水泥的生产向大气中排放二氧化碳，这是一种温室气体，造成环境污染。考虑到这是一个严重的环境问题，有必要开发可持续的波特兰水泥替代品，利用工业副产品，如粉煤灰、磨碎的粒状高炉矿渣和偏高岭土，这些都是天然的火山灰。粉煤灰可以部分替代水泥。在这种情况下，一种新材料被开发称为‖地聚合物‖。在本研究中，研究了各种参数对地聚合物砂浆新鲜和硬化性能的短期工程性能的影响。在本研究中，以地聚合物为源材料替代水泥，以水玻璃和氢氧化钠组成的碱性活化剂替代水。采用水玻璃与氢氧化钠的比例为2.5。试验结果表明，随着GGBS含量的增加，终凝时间缩短，抗压强度也随之增加。而在偏高岭土的情况下，随着掺量的增加，地聚合物混凝土的抗压强度和凝结次数都有所降低。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International Journal of ChemTech Research

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