比较传统混凝土和绿色混凝土样品的耐磨性

Mohammed Q. Abbas, Ali N. Hilo, T. S. Al-Gasham
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摘要

大量不可生物降解的固体废物与伊拉克的工业活动有关,其中废塑料是最显著的废物之一。本研究使用了24个样品来测试回收废塑料制成混凝土的有效性。绿色混凝土和传统混凝土中四种不同比例的废塑料被用来部分替代砾石:0%、30%、60%和100%。所有的混凝土组合都在室温下进行了测试。这些测试包括抗压强度和耐磨性。通过成型36个立方体来确定抗压强度。在本研究中,混凝土混合料分别固化3、7和28天。瓦西特大学土木工程系的建筑实验室发明了这种仪器,通过将水和沙子的混合物的高速射流对准混凝土样品,来测量混凝土的侵蚀速率。并对撞击角度的影响进行了分析。使用两个不同的角度(45和90)与地平线,进行了实验估计。实验研究结果表明,沿水平方向流动倾角为45时,侵蚀率最高,沿水平方向流动倾角为90时,侵蚀率最低。此外,随着龄期的增加,塑性率的增加,侵蚀作用减小。这项研究证实,回收废塑料作为混凝土中的砾石替代品提供了一个有希望的解决方案,可以降低材料成本,并解决塑料带来的固体废物的一些问题。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Comparing The Abrasion Resistance of Conventional Concrete and Green Concrete Samples
Significant volumes of non-biodegradable solid waste are related to industrial activity in Iraq, with waste plastic being one of the most notable. 24 samples were used in this study to test the effectiveness of recycling waste plastic to make concrete. Four different ratios of waste plastic from both green and conventional concrete were used as a partial replacement for gravel: 0%, 30%, 60%, and 100%. All of the concrete combinations were tested at room temperature. These tests include compressive strength and abrasion resistance. The compressive strength was determined by molding 36 cubes. In this study, concrete mixes were cured for 3, 7, and 28 days. The apparatus created in the Construction Laboratory of the Civil Engineering department at Wasit University was used to measure the rate of concrete erosion by directing a high-velocity jet of a water and sand combination at concrete samples. A determination was also made on the impact of the impingement angle. Using two distinct angles (45 and 90) with the horizon, experimental estimations were performed. The results of the experimental studies showed that the flow inclination angle of 45 with the horizon can achieve the highest rate of erosion, while the flow inclination angle of 90 with the horizon can achieve the lowest rate. Additionally, the results showed that erosion decreased as the plastic percentage increased with age. This study confirms that recycling waste plastic as a gravel substitute in concrete offers a promising solution to lower material costs and address some of the issues with solid waste that plastic presents.
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