Samiha E. Alharthy, O. Hodhod, Basma. A. Abdelkadir
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引用次数: 0
摘要
摘要:本文研究了利用大理石粉尘废料、粉煤灰和硅灰作为原料生产地聚合物浆料。利用化学分析(x射线荧光XRF)和矿物学分析、x射线衍射(XRD)等方法确定了每种原料的化学成分。按水胶比(w/ B)分为A、B、C三组(A =28%, B = 30%, C = 33%)。每一组又根据大理石粉尘、粉煤灰和硅灰的百分比进一步分为五个小组。样品在60°C下固化三天。地聚合物膏体的性能是通过以下测试来确定的:抗压、抗拉、抗折强度和吸水率。当w/b = 0.28时,掺量为70%粉煤灰和30%大理岩粉的混合料的力学性能最高。比含有50%粉煤灰和50%大理石粉的对照混合物所获得的含量高40%。值得一提的是,大理石粉的最佳用量为30%,地聚合物膏体的阻力达到237.8 kg/cm2。结果经扫描电镜成像证实。
ABSTRACT This paper investigates the use of marble dust waste, fly ash, and silica fume as raw materials for manufacturing geopolymer pastes. The chemical composition of each raw material is established using chemical analysis (X-ray fluorescence XRF) and mineralogical analysis, X-ray diffraction (XRD) pattern of raw materials. The experimental work was divided into three groups (A, B, C) according to the water to binder ratio (w/b) (A =28%, B = 30%, C = 33%). Each group is further divided into five subgroups according to the percentage of marble dust, fly ash, and silica fume. The samples are cured at 60°C for three days. The properties of the geopolymer pastes are determined by performing the following tests: compressive, tensile, and flexural strength and water absorption. The highest mechanical properties were obtained from mixes containing 70% fly ash and 30% marble dust at w/b = 0.28. It was 40% more than those obtained from control mixes containing 50% fly ash and 50% marble dust. It is worth mentioning that the best amount of marble dust was 30% as the resistance of the geopolymer paste reached values up to 237.8 kg/cm2. The results were confirmed by SEM imaging.
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