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The addition of snail shell waste to the recipe resulted in an increase in sludge density and viscosity. Physical and mechanical tests were conducted on wall tiles made with the addition of snail shell waste and compared to standard wall tiles according to TSE EN ISO standards. When the waste material was used in a 50–50 ratio with calcite, the strength of the recipe was calculated to be 279.41 kg/cm<sup>2</sup>. Water absorption values were within standard limits and recorded at 15%. The phases that occur in the structure of wall tiles with the increase of waste addition were examined by X-ray Diffraction Analysis. The microstructures of the samples were compared with SEM–EDX analysis. 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引用次数: 0
摘要
方解石是墙砖应用中的重要成分之一,比例为 10-12%,因为其含量有助于形成孔隙。本研究调查了氧化钙含量高的蜗牛壳废料作为方解石原料替代品的可用性。这样,既可防止方解石储量枯竭,又可利用废物获得高附加值的商业产品。此外,适当的废物管理还能防止废物堆积造成的环境污染和破坏。蜗牛壳废弃物的化学分析显示,其氧化钙含量为 55%,而方解石中的氧化钙含量为 58%。考虑到它们相似的化学特性,在墙砖配方中添加了不同数量的蜗牛壳废料(6%、9%、12%)来代替方解石。在配方中添加蜗牛壳废料后,污泥的密度和粘度都有所增加。对添加了蜗牛壳废料的墙砖进行了物理和机械测试,并根据 TSE EN ISO 标准与标准墙砖进行了比较。当废料与方解石以 50-50 的比例混合使用时,计算得出的配方强度为 279.41 kg/cm2。吸水率在标准范围内,记录为 15%。通过 X 射线衍射分析,研究了随着废料添加量的增加,墙砖结构中出现的相。样品的微观结构与 SEM-EDX 分析进行了比较。通过使用蜗牛壳废料,获得了可持续和低成本的墙砖,并提供了环境友好型解决方案。
Eco-friendly wall tile infused with ramshorn snail shell waste: from production to application
Calcite is one of the significant components used in the wall tile application at a rate of 10–12% as its content contributes to the formation of pores. This study investigates the usability of snail shell waste with high calcium oxide content as an alternative to calcite raw material. Thus, depletion of calcite reserves will be prevented and value-added commercial products will be obtained by using waste. In addition, proper waste management will prevent environmental pollution and damage caused by waste accumulation. The chemical analysis of snail shell waste revealed a CaO content of 55%, while the CaO content in calcite was measured at 58%. Considering their similar chemical properties, different amounts of snail shell waste (%6, %9, %12) were added to the wall tile recipe instead of calcite. The addition of snail shell waste to the recipe resulted in an increase in sludge density and viscosity. Physical and mechanical tests were conducted on wall tiles made with the addition of snail shell waste and compared to standard wall tiles according to TSE EN ISO standards. When the waste material was used in a 50–50 ratio with calcite, the strength of the recipe was calculated to be 279.41 kg/cm2. Water absorption values were within standard limits and recorded at 15%. The phases that occur in the structure of wall tiles with the increase of waste addition were examined by X-ray Diffraction Analysis. The microstructures of the samples were compared with SEM–EDX analysis. Sustainable and low-cost wall tiles were obtained through the use of snail shell waste, with environmentally friendly solutions.
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Journal of the Australian Ceramic Society since 1965
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