Investigation of Wastes Plastic and Glass to Enhance Physical - Mechanical Properties of Fired Clay Brick

IF 1.1 Q3 ENGINEERING, CIVIL

Civil and Environmental Engineering Pub Date : 2023-05-12 DOI:10.2478/cee-2023-0022

Rasool Dakhil Mohsin, Hayder Al-khazraji, Sajid Kamil Zemam, Tiba Hameed Majeed, Al-zahraa Hayder Abbood

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引用次数: 0

Abstract

Abstract Around the world, large amounts of plastic and glass waste have been collected. This work is given as a way to reduce this material. This paper aims to investigate how fired clay bricks' physical and mechanical properties are affected by plastic/glass (P/G) powder. It is used as a replacement for clay, varying the plastic/glass content 00/20, 05/15, 10/10, 15/05, and 20/00 weight %. The ratio of soil to water remains constant 0.3. The maximum temperature is presented after three fire phases. The temperatures are 300 °C for the first, 600 °C for the second, and 900 °C for the third. Results for the physical properties showed an increase in the water absorption of clay brick specimens as the plastic content increased; in addition, efflorescence was increased with plastic powder. However, the density and firing shrinkage decrease with plastic quantity. Also, the experimental results showed a decrease in water absorption and efflorescence when the glass powder was increased. While the density is higher when glass powder is 20 %. According to the findings on mechanical properties, clay brick samples with higher plastic powder content 20 % displayed a decrease in compressive strength and flexural bending strength, i. e. the mechanical properties (compressive and flexural strengths) are increased with the increased

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废塑料和玻璃提高烧结粘土砖物理力学性能的研究

在世界各地，大量的塑料和玻璃垃圾已经被收集起来。这项工作是作为减少这种材料的一种方法而提出的。本文旨在研究塑料/玻璃(P/G)粉对烧制粘土砖物理力学性能的影响。它被用作粘土的替代品，改变塑料/玻璃含量00/ 20,05 / 15,10 / 10,15 /05和20/00重量%。土与水的比例保持不变，为0.3。最高温度出现在三个火相之后。第一种温度为300℃，第二种温度为600℃，第三种温度为900℃。物理性能分析结果表明:黏土砖试样吸水率随塑性含量的增加而增加;此外，塑料粉还能增加花期。而密度和烧成收缩率随塑量的增加而减小。实验结果还表明，随着玻璃粉用量的增加，吸水率和气孔率均有所下降。而当玻璃粉含量为20%时，密度更高。力学性能研究结果表明，当塑粉含量高于20%时，粘土砖试样的抗压强度和抗弯强度均有所降低，即力学性能(抗压强度和抗弯强度)随塑粉含量的增加而增加

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来源期刊

Civil and Environmental Engineering ENGINEERING, CIVIL-

CiteScore

2.00

自引率

58.30%

发文量