含工业副产物软木渣烧制粘土砖的热力学性能

BOUZEROURA MANSOUR, SEBBAH YACINE, DJAFRI GHANI, CHELOUAH NASSER
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引用次数: 0

摘要

全世界固体废物(家庭、农业或工业)的数量正在增加,它们的消除变得更加复杂。然而,工业副产物材料废弃物的回收利用已成为土木工程材料研究的热门课题。必须负责任地管理这些工业副产品、材料和废物,以确保一个清洁的环境。在烧制粘土砖生产中使用废物也可以使粘土免于可避免的枯竭,并减少废物对环境的污染,有助于可持续发展。研究了软木渣对烧结粘土砖热力学性能的影响。为此,将颗粒尺寸小于1.00 mm的越来越多的软木废料(占重量的0,5,10和15%)与粘土混合,经过压制、干燥,然后在900°C下烧制,制成粘土砖。结果表明,随着连续波含量的增加,烧制粘土砖的表观孔隙率显著增加。随着(GCW)含量的增加,试样的抗压强度和导热系数降低。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Thermo-mechanical properties of fired clay brick incorporating industrial by-product materials cork waste
The quantity of solid wastes (domestic, agricultural or industrial) throughout the world is increasing and their elimination becomes more complex. However, recycling industrial by-product materials waste has become an attractive topic of materials research in civil engineering. These industrial by-product materials waste must be managed responsibly to insure a clean environment. The use of waste in fired clay brick production may also save clay from avoidable depletion and reduce the environmental contamination by waste, contributing to sustainability. The aim of this research is to study the influence of Ground Cork Waste (GCW) on the thermo-mechanical properties of fired clay brick. For this purpose, increasing amounts of Cork Waste (0, 5, 10 and 15% of weight) with a grain size under 1.00 mm were mixed with a clay to produce clay bricks by pressing, drying and then firing at 900°C. The results obtained demonstrate that an increase in the content of CW leads to a significant increase in apparent porosity of fired clay brick. The compressive strength and thermal conductivity of the samples decreased with the increase in content of (GCW).
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