Experimental study on concrete by partial replacement of cement with fly ash and coarse aggregates with palm kernel shells (Pks) and with addition of hybrid fibers

Chemistry of Inorganic Materials Pub Date : 2024-02-01 DOI:10.1016/j.cinorg.2024.100033

Siva Shanmukha Anjaneya Babu Padavala, Subhashish Dey, G.T.N. Veerendra, Akula Venkata Phani Manoj

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Abstract

Now a day’s production of sustainable concrete is a significant issue because of the reduction in raw sources. Thus, the present investigation attempts to investigate the strength characteristics of lightweight concrete produced by substituting the cement with Fly Ash (FA) and Palm Kernel Shells (PKS) with Coarse Aggregate (CA). In this investigation grade of concrete, M₃₀ was considered. In the first phase, cement is partially replaced with FA indifferent proportions like 5, 10, 15, 20, 25 and 30 %, respectively. In the second phase, by keeping the optimum FA content constant, the CA is partially replaced with PKS in different proportions, i.e. 5 %, 10 % and 15 %. In addition to that, the effect of hybrid fibers is also studied. The results showed that the concrete produced by replacing 25 % of cement with FA and 10 % of CA by PKS along with 1.2 % fibers gives optimum strength. This suggests that lightweight concrete with low-cost can be produced by combining FA and PKS, thus delivering reasonable housing and conserving raw resources.

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用粉煤灰部分替代水泥、用棕榈仁壳（Pks）替代粗集料并添加混合纤维的混凝土试验研究

由于原材料的减少，如今生产可持续混凝土已成为一个重要问题。因此，本调查试图研究用粉煤灰（FA）替代水泥和用粗骨料（CA）替代棕榈仁壳（PKS）生产的轻质混凝土的强度特性。本次研究考虑的混凝土等级为 M30。在第一阶段，分别以 5%、10%、15%、20%、25% 和 30% 的不同比例用粉煤灰替代部分水泥。在第二阶段，在保持最佳 FA 含量不变的情况下，用不同比例的 PKS 部分取代 CA，即 5%、10% 和 15%。此外，还研究了混合纤维的影响。结果表明，用 FA 替代 25% 的水泥，用 PKS 替代 10% 的 CA，再加上 1.2% 的纤维，生产出的混凝土具有最佳强度。这表明，通过将 FA 和 PKS 结合使用，可以生产出低成本的轻质混凝土，从而提供合理的住房并节约原材料。

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Chemistry of Inorganic Materials

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