A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
The invention relates to vanadium iron slag-low piezoelectric ceramic waste refractory castable. Vandium iron slag, low piezoelectric ceramic waste, magnesium sand, aluminum ash, silicon carbide, kaolin powder, zinc-aluminum spinel fine powder, serpentine, zirconium oxide, yttrium oxide, andalusite, polycrystalline alumina fibers, sodium tripolyphosphate, sodium hydroxyl cellulose and pure calcium aluminate cement are adopted as raw materials to prepare the refractory castable excellent in application performance and low in production cost, so that a purpose of comprehensively recycling vanadium iron slag and low piezoelectric ceramic waste and reducing the production cost can be realized.
The invention relates to vanadium iron slag-low piezoelectric ceramic waste refractory castable. Vandium iron slag, low piezoelectric ceramic waste, magnesium sand, aluminum ash, silicon carbide, kaolin powder, zinc-aluminum spinel fine powder, serpentine, zirconium oxide, yttrium oxide, andalusite, polycrystalline alumina fibers, sodium tripolyphosphate, sodium hydroxyl cellulose and pure calcium aluminate cement are adopted as raw materials to prepare the refractory castable excellent in application performance and low in production cost, so that a purpose of comprehensively recycling vanadium iron slag and low piezoelectric ceramic waste and reducing the production cost can be realized.
Vanadium iron slag-low piezoelectric ceramic waste refractory castable
ZHANG YAN (author)
2015-10-07
Patent
Electronic Resource
English
Vanadium iron slag-polycrystalline silicon waste refractory castable
| European Patent Office | 2015
Refractory castable containing vanadium iron slag and thermal power plant coal ash
| European Patent Office | 2015