A Sustainable Building Material Developed from Low-Temperature Sintering of Mining Waste with an Alkali-Silicate Solution

Gazi University Journal of Science Part A: Engineering and Innovation Pub Date : 2023-06-27 DOI:10.54287/gujsa.1245213

Peter Oluwagbenga Odewole

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Abstract

The development of glass-ceramic foam has received significant attention in building and construction, given its potential for sustainability. This study investigated the low-temperature route of fabricating glass-ceramic foams from mining waste. The feasibility of one-step or chemical-aided sintering of glass-ceramic foams using granite powder, a naturally sourced mining waste, rather than using already heat-treated wastes such as glass and fly ash has been explored in this study. Glass-ceramic foam samples were synthesized from a homogenous blend of constant percentage by weight of granite-clay mix with varying amounts of alkali-silicate solution. The influence of the alkali-silicate solution on the physicomechanical and microstructural properties of the synthesized samples sintered at 850°C was investigated. The results showed water absorption of 9.5-33.3%, apparent porosity of 18.2-56.7%, bulk density of 1.7-1.91 g/cm3, and compressive strength of 20.7-26.3MPa. The glass-ceramic foam developed in this research can be suitably used for the thermal insulation of buildings.

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用碱-硅酸盐溶液低温烧结矿渣制备可持续建筑材料

由于具有可持续性的潜力，玻璃陶瓷泡沫的发展在建筑和建筑领域受到了极大的关注。研究了利用矿山废弃物制备玻璃陶瓷泡沫的低温工艺路线。本研究探讨了利用花岗岩粉(一种自然来源的采矿废料)一步烧结或化学辅助烧结玻璃陶瓷泡沫的可行性，而不是使用已经热处理过的废料，如玻璃和粉煤灰。用等量的碱硅酸盐溶液和等量的花岗岩-粘土混合物混合制备了玻璃陶瓷泡沫样品。研究了碱硅酸盐溶液对850℃烧结合成样品的物理力学性能和显微组织性能的影响。结果表明:吸水率为9.5 ~ 33.3%，表观孔隙率为18.2 ~ 56.7%，容重为1.7 ~ 1.91 g/cm3，抗压强度为20.7 ~ 26.3 mpa。本研究开发的玻璃陶瓷泡沫材料可以很好地用于建筑物的保温。

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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Gazi University Journal of Science Part A: Engineering and Innovation

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