Analytical sharing of pure magnesium oxide applications
The analytical pure magnesium oxide produced by Wuxi Honglixin is mainly used in electronic glass, electronic ceramics, reagent industry and other chemical or intermediate industries, catalysts, to prepare high-end magnesium fluoride, and the analytical pure magnesium oxide is mainly used for trichromatic phosphors and other raw materials of various photobodies. Of course, because it has excellent alkali resistance and electrical insulation at high temperatures, high thermal expansion coefficient and thermal conductivity, it has good light transmittance. It is widely used as a high-temperature heat-resistant material, a raw material for light-transmitting ceramic crucibles and substrates in the ceramic field, and a filler for magnetic devices, insulating materials, fillers and various carriers in the electrical materials and electrical fields.
Analysis: Pure magnesium oxide has high fire resistance and insulation properties, high purity, and few impurities, which can be transformed into crystals by burning at a high temperature of more than 1500 °C, and become dead burned magnesia (magnesia) or sintered magnesia when it rises to 2500 °C. First of all, it plays a key role in glass manufacturing, which can effectively reduce the melting point of glass and improve its transparency and hardness. In addition, the analysis of pure magnesium oxide also plays an irreplaceable role in the fields of refractory materials, electronics industry and chemical industry. production process (gas phase method); The reaction of high-purity magnesium metal and high-purity carbon dioxide to form a crystal nucleus structure makes the particles continue to grow, and the analytical pure magnesium oxide is prepared, which improves the production efficiency of the product, reduces the production cost of the analytical pure magnesium oxide, breaks through the technical bottleneck of the traditional soda ash method to produce magnesium oxide, and opens up the utilization value and application field of the new product.