A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
The invention provides a self-cleaning antimicrobial ceramic glaze. The self-cleaning antimicrobial ceramic glaze is prepared from the following formula components: 200 parts of common ceramic glaze, 1.0 part of zinc monoxide, 0.5 part of beta-type bismuth trioxide, 1.5 parts of antimonous oxide, 0.5 part of manganese dioxide, 2 parts of cobalt sesquioxide, 0.8 part of chromium sesquioxide, 1.2 parts of nickel monoxide, 3.0 parts of silicon dioxide, 0.1 part of diboron trioxide and 0-0.2 part of aluminum nitrate nonahydrate. The production process of the self-cleaning antimicrobial ceramic glaze comprises the following steps: grinding the raw materials by use of a ball mill; sieving the finished glaze to remove impurities; evenly stirring by use of a stirrer in a glaze slip tank; spray-coating; and calcining to obtain the finished product. The production process of the self-cleaning antimicrobial ceramic glaze is simple, water-saving, environment-friendly, substantial and low in cost; the glaze is high in glaze surface density, few in micropores, high in brightness and smoothness, and good in high temperature resistance and acid and alkali resistance, and has self-cleaning and antimicrobial effects.
The invention provides a self-cleaning antimicrobial ceramic glaze. The self-cleaning antimicrobial ceramic glaze is prepared from the following formula components: 200 parts of common ceramic glaze, 1.0 part of zinc monoxide, 0.5 part of beta-type bismuth trioxide, 1.5 parts of antimonous oxide, 0.5 part of manganese dioxide, 2 parts of cobalt sesquioxide, 0.8 part of chromium sesquioxide, 1.2 parts of nickel monoxide, 3.0 parts of silicon dioxide, 0.1 part of diboron trioxide and 0-0.2 part of aluminum nitrate nonahydrate. The production process of the self-cleaning antimicrobial ceramic glaze comprises the following steps: grinding the raw materials by use of a ball mill; sieving the finished glaze to remove impurities; evenly stirring by use of a stirrer in a glaze slip tank; spray-coating; and calcining to obtain the finished product. The production process of the self-cleaning antimicrobial ceramic glaze is simple, water-saving, environment-friendly, substantial and low in cost; the glaze is high in glaze surface density, few in micropores, high in brightness and smoothness, and good in high temperature resistance and acid and alkali resistance, and has self-cleaning and antimicrobial effects.
Self-cleaning antimicrobial ceramic glaze
WU JIAQING (author)
2015-04-22
Patent
Electronic Resource
English
IPC:
C04B
Kalk
,
LIME