Sustainable construction materials from alkali-activated waste fiberglass and waste refractory

IF 2.9 Q1 MATERIALS SCIENCE, CERAMICS Open Ceramics Pub Date : 2024-09-16 DOI:10.1016/j.oceram.2024.100678

Abel W. Ourgessa , Jozef Kraxner , Hamada Elsayed , Dušan Galusek , Enrico Bernardo

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Abstract

In this work, waste fiberglass was up-cycled, alone, or mixed with used alumina-zirconia-silica (AZS) refractory from dismantled glass melting furnaces. Alkali activation was performed by suspending fiberglass and fiberglass/AZS powders in NaOH aqueous solution of various concentrations (8M, 6M, and 3M). The activation of waste fiberglass with 8M NaOH yields a gel with calcium and sodium-containing aluminosilicate hydrates. The addition of AZS refractory enabled the release of aluminates into the solution, which had beneficial effects on the mechanical properties. Low molarity activation yielded weaker materials which could be used as precursors for firing at moderate temperatures (800 °C and 1000 °C) to create cellular glass-ceramics, with a total porosity of up to 92 %. The firing of 8M activated samples resulted in glass ceramics with a 66–75 % porosity range and compressive strength of 10–23Mpa. The compressive strength-to-density ratio before and after firing was comparable to that of established commercial construction materials.

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利用碱活性废玻璃纤维和废耐火材料制成可持续建筑材料

在这项研究中，废玻璃纤维被单独回收利用，或与从拆卸的玻璃熔炉中回收的氧化铝-氧化锆-二氧化硅（AZS）耐火材料混合。将玻璃纤维和玻璃纤维/AZS 粉末悬浮在不同浓度（8M、6M 和 3M）的 NaOH 水溶液中，进行碱活化。用 8M NaOH 对废玻璃纤维进行活化，可产生含钙和钠的铝硅酸盐水合物凝胶。添加 AZS 耐火材料可使铝酸盐释放到溶液中，从而对机械性能产生有利影响。低摩尔活化产生的材料强度较低，可用作在中等温度（800 ℃ 和 1000 ℃）下烧制蜂窝状玻璃陶瓷的前驱体，总孔隙率高达 92%。8M 活化样品烧制出的玻璃陶瓷孔隙率范围为 66-75%，抗压强度为 10-23Mpa。烧制前后的抗压强度密度比与现有的商业建筑材料相当。

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