Optimization of alkali-activated ladle slag-fly ash composites using a Taguchi-TOPSIS hybrid algorithm

IF 5.3 Q2 ENGINEERING, ENVIRONMENTAL Cleaner Engineering and Technology Pub Date : 2024-11-10 DOI:10.1016/j.clet.2024.100836
Omar Najm , Hilal El-Hassan , Amr El-Dieb
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Abstract

The effect of multiple mix design factors on the properties of ladle slag-fly ash alkali-activated composites was investigated. Taguchi-TOPSIS hybrid algorithm was adopted to optimize mix design parameters, including ladle slag replacement by fly ash (LSR), sodium hydroxide molarity (SHM), the ratio of sodium silicate to sodium hydroxide (NS/NH), the ratio of alkaline activator solution to binder (AAS/B), and crushed stone replacement by desert dune sand (CSR). The results revealed that the mix proportions of the optimum strength response comprised LSR, AAS/B, SHM, NS/NH, and CSR of 10%, 0.5, 8 M, 2, and 75%, respectively, with a compressive strength of 21 MPa. Conversely, the mixture proportions for superior fresh properties had a flow of 240 mm and entailed LSR, AAS/B, SHM, NS/NH, and CSR of 40%, 0.5, 8 M, 2.5, and 75%, respectively. Additionally, the hybrid method prediction model proved to be robust, with the ability to predict strength and workability at 93 and 100% accuracy. The optimum mixes comprised an intermix of calcium aluminosilicate hydrate and sodium aluminosilicate hydrate gels, with traces of calcium silicate hydrate gel, as identified by microstructure analysis and using ternary diagram system of Ca/Si-Na/Si-Al/Si ratios.
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使用田口-TOPSIS 混合算法优化碱活性钢包炉渣-粉煤灰复合材料
研究了多种混合设计因素对钢包渣-粉煤灰碱活性复合材料性能的影响。采用田口-TOPSIS 混合算法优化了混合设计参数,包括用粉煤灰替代钢包渣(LSR)、氢氧化钠摩尔比(SHM)、硅酸钠与氢氧化钠的比例(NS/NH)、碱性活化剂溶液与粘结剂的比例(AAS/B)以及用沙漠沙丘砂替代碎石(CSR)。结果显示,最佳强度响应的混合比例包括 LSR、AAS/B、SHM、NS/NH 和 CSR,分别为 10%、0.5、8 M、2 和 75%,抗压强度为 21 兆帕。相反,新鲜性能优越的混合比例的流动度为 240 毫米,LSR、AAS/B、SHM、NS/NH 和 CSR 分别为 40%、0.5、8 M、2.5 和 75%。此外,混合方法预测模型被证明是稳健的,能够预测强度和工作性,准确率分别达到 93% 和 100% 。通过微观结构分析和使用 Ca/Si-Na/Si-Al/Si 三元图系统确定,最佳混合物包括水合硅酸铝钙凝胶和水合硅酸铝钠凝胶的混合体,以及微量的水合硅酸钙凝胶。
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来源期刊
Cleaner Engineering and Technology
Cleaner Engineering and Technology Engineering-Engineering (miscellaneous)
CiteScore
9.80
自引率
0.00%
发文量
218
审稿时长
21 weeks
期刊最新文献
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