Manufacturing Ceramic Foams at Very High Temperature by the Unconventional Process of Direct Microwave Heating

Journal La Multiapp Pub Date : 2020-12-18 DOI:10.37899/journallamultiapp.v1i4.228

L. Paunescu, S. Axinte, M. Drăgoescu, F. Cosmulescu

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引用次数: 2

Abstract

Abstract SiC ceramic foams were manufactured by direct microwave heating up to 1520 ºC. Silicon carbide (42-68 wt.%), quartz sand as a silica supplier (20-38 wt.%), coal fly ash (12-20 wt.%) and a constant water addition of 15 wt.% were used as starting materials. The ceramic foam samples had semi-open microstructures in which neighboring cells are partially connected to each other and partially closed. Due to the very dense cellular walls and the very low cells size (below 21 μm), the compressive strength had very high values (41.3-56.5MPa), the porosity was within an average value range (52.4-57.6%) and the thermal conductivity and the apparent density had relatively high values. In energy terms, the technique of direct microwave heating was very advantageous, the specific energy consumption being very low (1.04-1.21 kWh/kg) compared to the consumptions achieved by conventional methods. The application field of SiC ceramic foams obtained by the bonding method and using silica as a bonding agent includes hot gas or molten metal filters, porous burners, catalytic supports and others. From the four tested experimental variants, it could be concluded that the optimal sample was that achieved at 1520 ºC with 68% silicon carbide, 20% quartz sand, 12% coal fly ash and 15% water addition, having the porosity of 57.6%, thermal conductivity of 0.174 W/m·K, compressive strength of 56.5 MPa and the equivalent pore size between 9-21 μm.

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利用微波直接加热的非常规工艺在高温下制造陶瓷泡沫

文摘碳化硅陶瓷泡沫是由直接微波加热1520ºC。以碳化硅(42-68 wt.%)、石英砂(20-38 wt.%)、粉煤灰(12-20 wt.%)和恒定水添加量为15 wt.%作为起始原料。陶瓷泡沫样品具有半开放的微结构，其中相邻的细胞部分相连，部分封闭。由于胞壁非常致密，胞孔尺寸非常小(小于21 μm)，抗压强度非常高(41.3 ~ 56.5 mpa)，孔隙率在平均值范围内(52.4 ~ 57.6%)，导热系数和表观密度相对较高。在能源方面，直接微波加热技术非常有利，与传统方法相比，比能耗非常低(1.04-1.21 kWh/kg)。以二氧化硅为粘结剂，用粘结法得到的SiC陶瓷泡沫的应用领域包括热气体或熔融金属过滤器、多孔燃烧器、催化支架等。结果表明，在1520℃条件下，碳化硅68%、石英砂20%、粉煤灰12%、水15%，孔隙率为57.6%，导热系数为0.174 W/m·K，抗压强度为56.5 MPa，等效孔径为9 ~ 21 μm。

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Journal La Multiapp

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