Descrição da massa de compactação de corindo de zircônio
Zirconium Corundum ramming mass is composed of fused zirconium corundum granule by oxidation method and a small amount of additives. Tem a característica de endurecimento da temperatura atmosférica, alta resistência em alta temperatura, baixa expansão térmica e contração, e forte resistência à erosão líquida de vidro. É o material ideal para a camada de vedação no fundo da poça fundida do forno de vidro.
Rongsheng Refractory Group manufacture and supply all kinds of high performance refractory ramming mass including the Zirconium Corundum ramming mass with good workability that are customizable for more than 15 years. Welcome to send inquiry to us for long term cooperation at any time.
Features of Zirconium Corundum Ramming Mass
1.1400℃<Working Temp≤1800℃
2.Low cost in furnace lining
3.Short heating and sinteringtime
4.Strong resistance to erosion
All types of our refractory Ramming Mass can be customized.
Applications of Zirconium Corundum Ramming Mass
1.Glass tanks: Zirconium corundum ramming mass is used to line the bottom of glass tanks to prevent erosion from molten glass.
2.Induction furnaces: Zirconium corundum ramming mass is used to line the crucibles of induction furnaces to withstand the high temperatures and corrosive effects of molten metals.
3.Steel furnaces: Zirconium corundum ramming mass is used to line the ladles and runners of steel furnaces to prevent erosion and contamination from molten steel.
4.Kilns: Zirconium corundum ramming mass is used to line the walls of kilns to withstand the high temperatures and corrosive effects of gases and fumes.
Other industrial applications: Zirconium corundum ramming mass is also used in a variety of other industrial applications, such as the lining of reactors, pumps, and other equipment that is exposed to high temperatures and corrosive materials.
Product Specification of Zirconium Corundum Ramming Mass
Item | Índice | ||
AZSD-5 | AZSD-0.6 | AZSD-0.4 | |
Tamanho Máximo de Grão mm | 5 | 0.6 | 0.4 |
ZrO2 % | ≥30 | ||
al2O3 % | ≥48 | ||
SiO2 % | ≤20 | ||
Densidade aparente g/cm3 | 3.2 | 3.1 | 3.1 |
Composição de Fase | α-Al2O、Bshiaddeleyita、Quartzo、Fase de vidro | ||
Porosidade Aparente % | 3≤20 | ||
Força de compressão MPa 1400℃×3h | ≥25 |