Modeling the compressive strength of metakaolin-based geopolymers based on the statistical analysis of experimental data

IF 5.3 2区 地球科学 Q2 CHEMISTRY, PHYSICAL Applied Clay Science Pub Date : 2023-09-15 DOI:10.1016/j.clay.2023.107020
M. Muracchioli , G. Menardi , M. D' Agostini , G. Franchin , P. Colombo
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引用次数: 1

Abstract

The relationship between the compressive strength of metakaolin-based geopolymer samples and different processing conditions has been investigated for both potassium and sodium based geopolymer systems. Cubic geopolymer samples were prepared by mixing the slurry for 1 h in a thermostatic bath at 0 °C. >1200 samples have been tested to gather enough data to carry out a meaningful statistical analysis. All the data evaluation and model development have been carried out extensively using R. The variation of curing and aging time, curing temperature, SiO2/Al2O3 and H2O/Al2O3 molar ratios has been accounted for via the application of statistical models whose reliability has been suitably checked. Curing has been performed in a sealed container at 100% relative humidity. Aging has been conducted in a climate chamber kept at 75% of relative humidity using an oversaturated solution of NaCl. Curing time has proved a positive relationship with compressive strength while aging time does not show evidence of any significant effect. Curing temperature negatively affects compressive strength. Increasing the SiO2/Al2O3 molar ratio results in an increase of the compressive strength within a certain range of values for the ratio; however, above a threshold (3.8 for the potassium-based and 3.4 for the sodium-based geopolymer system) the mechanical properties decrease. The H2O/Al2O3 molar ratio displayed an inverse proportionality with the compressive strength except for the sodium-based geopolymer, where the mechanical properties initially increased. A further comprehensive and statistically sound model has been proposed that allows us to predict the strength of geopolymer samples as a function of process variables and their composition, ranging in a rather wide set of values.

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基于实验数据统计分析的偏高岭土聚合物抗压强度建模
研究了钾基和钠基地聚合物体系中偏高岭土基地聚合物样品的抗压强度与不同工艺条件的关系。将浆料在0℃恒温浴中搅拌1 h,制备立方型地聚合物样品。已经测试了1200个样本,以收集足够的数据来进行有意义的统计分析。所有的数据评估和模型开发都广泛使用r进行,通过应用统计模型来解释固化和老化时间、固化温度、SiO2/Al2O3和H2O/Al2O3摩尔比的变化,这些统计模型的可靠性已经进行了适当的检查。在100%相对湿度的密封容器中进行固化。在保持75%相对湿度的气候室中使用过饱和NaCl溶液进行陈化。养护时间与抗压强度呈正相关,而老化时间对抗压强度无显著影响。固化温度对抗压强度有不利影响。增大SiO2/Al2O3的摩尔比,在一定范围内抗压强度增大;然而,超过阈值(钾基为3.8,钠基为3.4),力学性能下降。H2O/Al2O3的摩尔比与抗压强度呈反比关系,但钠基地聚合物的力学性能在初始阶段有所提高。已经提出了一个进一步全面和统计合理的模型,使我们能够预测地聚合物样品的强度作为过程变量及其组成的函数,范围在相当广泛的一组值内。
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来源期刊
Applied Clay Science
Applied Clay Science 地学-矿物学
CiteScore
10.30
自引率
10.70%
发文量
289
审稿时长
39 days
期刊介绍: Applied Clay Science aims to be an international journal attracting high quality scientific papers on clays and clay minerals, including research papers, reviews, and technical notes. The journal covers typical subjects of Fundamental and Applied Clay Science such as: • Synthesis and purification • Structural, crystallographic and mineralogical properties of clays and clay minerals • Thermal properties of clays and clay minerals • Physico-chemical properties including i) surface and interface properties; ii) thermodynamic properties; iii) mechanical properties • Interaction with water, with polar and apolar molecules • Colloidal properties and rheology • Adsorption, Intercalation, Ionic exchange • Genesis and deposits of clay minerals • Geology and geochemistry of clays • Modification of clays and clay minerals properties by thermal and physical treatments • Modification by chemical treatments with organic and inorganic molecules(organoclays, pillared clays) • Modification by biological microorganisms. etc...
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