Mechanical Properties of Mortar with Alkali-Activated Fly Ash and GGBS Binders

O. Mohamed, K. Al-Aribe, E. Ahmed
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引用次数: 1

Abstract

The purpose of this study is to evaluate the compressive strength and splitting tensile strength of mortar samples that use alkali-activate ground granulated blast furnace slag (GGBS) or GGBS+ fly ash as binder. The binder was activated using alkaline solution consisting of combination of Na2SiO3 and NaOH. One set of mortar samples was cured by exposure to normal air at a temperature of 22±2 0C and 70% RH, and another set was cured under 10% sulfuric acid solution, in order to quantity its effect on compressive strength development. Water-cured mortar samples exhibited higher compressive strength at the age of 28-days in contrast with air-cured samples. The highest compressive strength at the age of 28-day was developed by mortar samples with binders consisting of GGBS: fly ash ratio of 3:1, compared to binders with equal amounts of fly ash and GGBS, as well GGBS as sole binder. This was consistent for NaOH concentration of 10M, 12M, and 14M. A 2nd degree polynomial was found to strongly correlate splitting tensile strength to 28-day compressive strength of air-cured mortar samples. The correlation weakens with the addition of 25% fly ash, and diminishes when fly ash is 50% of the binder content.
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碱活性粉煤灰与GGBS粘结剂砂浆的力学性能
本研究的目的是评价碱活化磨粒高炉渣(GGBS)或GGBS+粉煤灰作为粘结剂的砂浆样品的抗压强度和劈裂抗拉强度。用Na2SiO3和NaOH组成的碱性溶液对粘结剂进行活化。将一组砂浆样品在22±20℃、70%相对湿度的正常空气中固化,另一组砂浆样品在10%硫酸溶液中固化,以定量其对抗压强度发展的影响。水固化砂浆在28天龄期的抗压强度高于风干砂浆。当GGBS与粉煤灰配比为3:1时,砂浆试样在龄期28天的抗压强度最高,而当粉煤灰与GGBS配比为等量时,以及当GGBS为唯一粘结剂时,砂浆试样的抗压强度最高。这在NaOH浓度为10M、12M和14M时是一致的。一个二次多项式被发现强烈相关的劈裂抗拉强度与28天的抗压强度的空气固化砂浆样品。当粉煤灰掺量为25%时,这种相关性减弱,当粉煤灰掺量为粘结剂掺量的50%时,这种相关性减弱。
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