EXPERIMENTAL MANUFACTURE OF THE FOAM GLASS GRAVEL FROM GLASS WASTE AND SILICON CARBIDE ON A 10 kW-MICROWAVE OVEN

Journal of Engineering Studies and Research Pub Date : 2022-10-27 DOI:10.29081/jesr.v28i3.009
L. Paunescu, S. Axinte, F. Cosmulescu
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Abstract

The work presents the results of the experimental manufacturing process on a 10 kW-microwave oven of foam glass gravel (FGG) from glass waste (98 wt. %) and silicon carbide (2 wt. %), the sintering/foaming temperature being varied between 910-930 ºC. The paper originality is the significant increase (about 8 times) of the amount of glass-based raw material foamed by the unconventional heating compared to the previous experiments. The main features of the FGG experimental samples were: bulk density between 0.26-0.31 g·cm-3, compressive strength between 8.5-9.7 MPa and thermal conductivity between 0.068-0.077 W/mK, suitable for their use as thermal insulation material in several applications in construction.
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用玻璃废料和碳化硅在10kW微波炉上制备泡沫玻璃砾石的实验研究
该工作介绍了在10kW微波炉上由玻璃废料(98 wt.%)和碳化硅(2 wt.%。论文的独创性在于,与之前的实验相比,通过非常规加热发泡的玻璃基原材料的量显著增加(约8倍)。FGG实验样品的主要特征是:体积密度在0.26-0.31g·cm-3之间,抗压强度在8.5-9.7MPa之间,导热系数在0.068-0.077W/mK之间,适合用作建筑中的隔热材料。
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来源期刊
Journal of Engineering Studies and Research
Journal of Engineering Studies and Research
自引率
0.00%
发文量
21
审稿时长
6 weeks
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