Effect of Different Ceramic Waste Powder on Characteristics of Fly Ash-Based Geopolymer

Civil Engineering Journal Pub Date : 2024-02-01 DOI:10.28991/cej-2024-010-02-06

B. Herbudiman, Subari Subari, Bactiar Nugraha, Indah Pratiwi, Asnan Rinovian, Euneke Widyaningsih, E. D. Yanti, B. D. Erlangga, Jakah Jakah, S. Roseno

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Abstract

The escalating demand for construction materials driven by rapid population growth has heightened the reliance on cement binders, resulting in increased CO2 emissions from the cement industry. Geopolymers, considered environmentally friendly alternatives, have been explored in various studies to address this challenge. This research specifically investigates the impact of different types of ceramic waste bricks (BT), floor tiles (FT), roof tiles (RT), and sanitary ceramics (ST) on the physical and mechanical properties of fly ash-based geopolymer mortar. To provide a comprehensive understanding, this research examines the compressive strength, mineral phase, chemical bonds, and microscopic evolution of fly ash geopolymer mortar incorporating varying proportions of each ceramic waste type (25% and 50% fly ash replacement). A consistent mixture of Na2SiO3and NaOH was used for the alkaline solution in all formulations. The curing process was carried out at room temperature for 7, 14, and 28 days prior to the compressive strength test. The result revealed that the inclusion of 25% BT experienced higher strength compared to the control sample after 14 days, but the strength became comparable after 28 days at 40.24 MPa. A reduction in strength was evident with the addition of other ceramic components. Moreover, higher incorporation of CWP correlated with a faster setting time for fresh geopolymers. This was also linked to the degree of gel formation, as indicated in the microstructure images. The emergence of plagioclase minerals was evident in all formulations of the geopolymer products under XRD analysis, while the bond of the geopolymer signature, Si-O-T (T = Si or Al), was identified from the infrared spectra. The microstructure of the binder showed a geopolymer matrix alongside unreacted fly ash particles. Overall, CWP replacement up to 25% can be potential in fly ash geopolymer without sacrificing significant strength loss and remaining in the range of normal strength mortar. Doi: 10.28991/CEJ-2024-010-02-06 Full Text: PDF

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不同陶瓷废粉对粉煤灰基土工聚合物特性的影响

人口的快速增长带动了对建筑材料需求的不断增长，从而加剧了对水泥粘合剂的依赖，导致水泥行业的二氧化碳排放量增加。土工聚合物被认为是环境友好型替代品，各种研究都在探索如何应对这一挑战。本研究特别调查了不同类型的陶瓷废砖（BT）、地砖（FT）、屋瓦（RT）和卫生陶瓷（ST）对粉煤灰基土工聚合物砂浆的物理和机械性能的影响。为了提供一个全面的认识，本研究考察了粉煤灰土工聚合物砂浆的抗压强度、矿物相、化学键和微观演化，其中掺入了不同比例的各种陶瓷废料（粉煤灰替代率分别为 25% 和 50%）。所有配方的碱性溶液均使用 Na2SiO3 和 NaOH 的混合物。在进行抗压强度测试之前，分别在室温下固化 7 天、14 天和 28 天。结果表明，与对照样品相比，添加 25% BT 的样品在 14 天后的强度更高，但在 28 天后的强度与对照样品相当，均为 40.24 兆帕。添加其他陶瓷成分后，强度明显下降。此外，CWP 的添加量越高，新鲜土工聚合物的凝固时间就越快。正如微观结构图像所示，这也与凝胶形成的程度有关。在 XRD 分析中，所有配方的土工聚合物产品中都明显出现了斜长石矿物，而从红外光谱中可以确定土工聚合物的特征键 Si-O-T （T = Si 或 Al）。粘结剂的微观结构显示，土工聚合物基体与未反应的粉煤灰颗粒并存。总体而言，粉煤灰土工聚合物的 CWP 替代率可达 25%，而不会造成明显的强度损失，并保持在正常强度砂浆的范围内。Doi: 10.28991/CEJ-2024-010-02-06 全文：PDF

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Civil Engineering Journal

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