Volumetric Microwave Heating of Mullite Ceramic Using a 28 GHz Gyrotron

H. Aripin, S. Mitsudo, I. Sudiana, B. Nundang, S. Sabchevski
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引用次数: 3

Abstract

In this paper, we present and discuss experimental results from a microwave sintering of a mullite ceramic, produced from a mixture of alumina and silica xerogel extracted from a sago waste ash. The composition has been prepared by adding 60 %wt amount of alumina into the silica xerogel. As a radiation source for the microwave heating, a 28 GHz wave gyrotron has been used. The influence of the sintering temperature on the structural properties was studied in detail. It has been found that the mixture crystallizes completely as a single mullite phase at a temperature of 1600°C after heating for 10 min at a temperature rate of 45oC/min. Most importantly, such result cannot be achieved by conventional heating. The results that have been obtained in this study allow one to conclude that the microwave sintering of using a 28 GHz gyrotron is an appropriate technological process for the production of mullite ceramics and is characterized by several advantages such as shorter times of the thermal cycle, lower sintering temperatures and higher quality of the final product.
用28 GHz回旋管对莫来石陶瓷进行体积微波加热
本文介绍并讨论了微波烧结莫来石陶瓷的实验结果,该陶瓷是由从西米废灰中提取的氧化铝和二氧化硅干凝胶的混合物制成的。该组合物是通过在二氧化硅干凝胶中加入60% wt量的氧化铝制备的。采用28ghz波回旋管作为微波加热的辐射源。详细研究了烧结温度对结构性能的影响。在温度为1600℃时,以45℃/min的升温速率加热10 min,发现混合物完全结晶为单一莫来石相。最重要的是,这样的结果是传统的加热无法达到的。研究结果表明,采用28ghz回旋管微波烧结是生产莫来石陶瓷的合适工艺,具有热循环时间短、烧结温度低、成品质量高等优点。
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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