An Experimental Study on Modified Concrete Using Partial Replacement of Gravel and Admixtures

Misan Journal of Engineering Sciences Pub Date : 2023-12-27 DOI:10.61263/mjes.v2i2.66

Yousif Jabbar Lafta

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Abstract

Abstract: This study aims to test a concrete specimen with replacement partially of 15 % of the coarse aggregate by pieces of tires and volcanic aggregates and reduce 5% of the water/cement ratio by substituting with 4% percentages of styrene butadiene rubber (SBR) and 1% of superplasticizer. The main concrete components (cement: sand: gravel) were used in weight ratios (1:1.5:3) and a water to cement 0.45 was used and it was considered as a reference sample (Mix1). A water to cement ratio 0.40 was depended for the modified mixtures. Samples were cast for testing the compression strength with sizes 150 ×150 ×150 mm for ages 7 and 28 days. the absorption rate, with a size of 100 ×100 ×100 mm at age 28 days. Moreover, 150 ×150×150 mm for depth of penetration test at the age of 28 days. Briefly, the observed results were exhibited that the partial replacement of normal aggregate in concrete with volcanic aggregate affects negatively on the workability, so 4% of the polymer SBR and 1% of the superplasticizer have improved the workability. The improvement in the workability of concrete contributed to reducing the ratio of water to cement required for mixing compared to ordinary concrete, and this in turn led to an improvement in performance of hardened concrete. In addition, the reduction of the permeability level. The results also illustrated that the replacement of the gravel in the modified mixtures (Mix 3 and Mix 2) reduces the weight of hardened concrete by (10-12%) and (7-9%) compared with conventional concrete, respectively, which makes it suitable for use in mediumweight concrete applications. Moreover, it can be concluded that the strength properties of the modified mix with volcanic aggregate improved by 19-20% compared to that of the unmodified concrete. While the modified concrete by cutting tires showed significant deterioration in the concrete's resistance 21% despite the reduction of concrete permeability.

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使用部分砂砾和外加剂替代改性混凝土的实验研究

摘要：本研究旨在测试一种混凝土试样，其中部分粗骨料用轮胎碎片和火山骨料替代 15%，水灰比降低 5%，用 4%的丁苯橡胶（SBR）和 1%的超塑化剂替代。混凝土主要成分（水泥、沙子、碎石）的重量比为 1:1.5:3，水灰比为 0.45，并将其作为参考样本（混合料 1）。改良混合物的水灰比为 0.40。在 7 天和 28 天的龄期，浇注了尺寸为 150 ×150 ×150 毫米的样品，用于测试抗压强度；在 28 天的龄期，浇注了尺寸为 100 ×100 ×100 毫米的样品，用于测试吸收率。此外，在 28 天的龄期，用 150 × 150 × 150 毫米的试样进行渗透深度测试。简而言之，观察结果表明，用火山骨料部分替代混凝土中的普通骨料会对工作性产生负面影响，因此 4% 的聚合物 SBR 和 1% 的超塑化剂改善了工作性。与普通混凝土相比，混凝土工作性的改善有助于降低搅拌所需的水灰比，进而改善硬化混凝土的性能。此外，还降低了渗透性水平。结果还表明，在改良混合物（混合料 3 和混合料 2）中替换碎石后，硬化混凝土的重量比普通混凝土分别减轻了（10-12%）和（7-9%），这使其适用于中等重量的混凝土应用。此外，还可以得出结论，与未改良混凝土相比，火山骨料改良混合料的强度性能提高了 19-20%。而通过切割轮胎改良的混凝土尽管降低了混凝土的渗透性，但混凝土的抗压性能却明显下降了 21%。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Misan Journal of Engineering Sciences

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