作者：SUN Yang,ZHANG Xiuhua,HU Hao,LIU Xiang,LIU Ying,CHEN Bo

作者单位：China Metallurgical Research Institute Co., Ltd.

刊名：China’s Refractories

ISSN：1004-4493

出版年：2022-03-15

卷：31

期：1

起页：30-34

止页：

分类号：TQ175.711

语种：英文

关键词：

内容简介

High thermal conductivity dense silica bricks have the higher thermal conductivity than ordinary silica bricks, which is conducive to the realization of energy saving and emission reduction in the iron and steel industry. The performance of ordinary silica bricks and high thermal conductivity dense silica bricks was compared, and the high thermal conductivity mechanism was analyzed. The results show that（1） compared with ordinary silica bricks, high thermal conductivity dense silica bricks have the characteristics of higher thermal conductivity, lower apparent porosity, higher tridymite content, higher compressive strength, and higher thermal expansion;（2） by increasing the tridymite content and reducing the porosity, the close packing of honeycomb α-tridymite improves the density and continuity of the SiO2 frame structure of the silica bricks, and the larger area perpendicular to the heat transfer direction improves the thermal conductivity of the bricks;（3） the densification of the silica bricks also increases the thermal expansion of the bricks, but they still meet the standard requirements.