UNCONVENTIONAL TECHNIQUE USED TO MANUFACTURE POROUS HIGH-STRENGTH GLASS FOAM

Journal of Engineering Studies and Research Pub Date : 2021-12-15 DOI:10.29081/jesr.v27i4.303
L. Paunescu, S. Axinte, M. Drăgoescu, B. Păunescu, F. Cosmulescu
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Abstract

The paper presents experimental results obtained in the manufacturing process of porous high-strength glass foam for thermal insulation in buildings made of glass waste and kaolin clay as raw materials and dolomite as a foaming agent. The paper’s originality is the use of the unconventional microwave heating technique. The best product manufactured by this technique was that sintered at 1050 ºC using 18 wt.% kaolin clay and 3.5 wt.% dolomite. The product characteristics were: the apparent density of 0.66 g·cm-3, the thermal conductivity of 0.155 W/m·K, the compressive strength of 5.3 MPa and a microstructural homogeneity with pore size between 0.20-0.50 mm.
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多孔高强度玻璃泡沫的非常规制造技术
本文介绍了以玻璃废料为原料,高岭土为发泡剂,白云石为发泡剂制备建筑隔热用多孔高强度玻璃泡沫的试验结果。这篇论文的独创之处在于使用了非传统的微波加热技术。通过该技术制造的最佳产品是在1050ºC下使用18wt.%高岭土和3.5wt.%白云石烧结。该产品的表观密度为0.66 g·cm-3,热导率为0.155 W/m·K,抗压强度为5.3MPa,微观结构均匀,孔径在0.20-0.50mm之间。
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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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