Unconventionally Made-Cellular Glass Aggregate

Journal La Multiapp Pub Date : 2021-12-31 DOI:10.37899/journallamultiapp.v2i6.511

L. Paunescu, S. Axinte, F. Cosmulescu

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Abstract

Improving the original manufacturing process in microwave field of a cellular glass aggregate using a recipe containing colored consumed drinking bottle, calcium carbonate (CaCO3) as an expanding agent, sodium borate (borax) as a fluxing agent and sodium silicate (Na2SiO3) as a binder is shown in the work. The main adopted technological measures were the advanced mechanical processing of residual glass at a grain dimension below 100 μm and especially the use of a high electromagnetic wave susceptible ceramic tube with a wall thickness reduced from 3.5 to 2.5 mm for the protection of the pressed glass-based mixture against the aggressive effect of microwave field and, in the same time, to achieve a preponderantly direct heating with electromagnetic waves. Of the tested variants, a recipe with 1.6 % calcium carbonate, 6 % borax, 8 % sodium silicate and the rest residual glass was determined to be optimal. The cellular glass aggregate had the bulk density of 0.22 g/cm3, heat conductivity of 0.079 W/m·K and compression strength of 5.9 MPa. The specific consumption of energy was very low (0.71 kWh/kg) below the range of reported values of the industrial processes consumption (between 0.74-1.15 kWh/kg).

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非常规制造的蜂窝玻璃骨料

以有色饮用瓶为原料，碳酸钙(CaCO3)为膨胀剂，硼酸钠(硼砂)为助熔剂，硅酸钠(Na2SiO3)为粘结剂，在微波场中对多孔玻璃骨料的原制备工艺进行了改进。采用的主要技术措施是对颗粒尺寸小于100 μm的残余玻璃进行先进的机械加工，特别是使用高电磁波敏感陶瓷管，将壁厚从3.5 mm减小到2.5 mm，以保护压制的玻璃基混合物免受微波场的侵蚀作用，同时实现电磁波直接加热的优势。在测试的变体中，以碳酸钙1.6%、硼砂6%、硅酸钠8%和剩余玻璃为最优配方。该蜂窝玻璃骨料的容重为0.22 g/cm3，导热系数为0.079 W/m·K，抗压强度为5.9 MPa。能耗比非常低(0.71千瓦时/公斤)，低于工业过程能耗报告值范围(0.74-1.15千瓦时/公斤)。

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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Journal La Multiapp

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