magnesium oxide

Tibet Mag stated that, based on the domestic first silicon steel continuous annealing-coating experimental unit project developed by a steel factory, research and analysis were conducted on the selection of magnesia for coating oriented silicon steel, and the development of oriented silicon steel oxidation Magnesium coating system, and based on this coating system, the magnesium […]

The thermal decomposition method is to prepare magnesium oxide by calcining magnesium carbonate (magnesite)) and magnesium hydroxide (brucite) at high temperature, the type and particle size of the roasting precursor, and the process conditions of calcining (roasting atmosphere, gas flow rate, etc.) and heating rate, etc.) affect the surface morphology and surface properties of magnesium

Tibet Mag reviewed the laboratory preparation methods of magnesium oxide and its application in catalytic reactions. The preparation methods of magnesium oxide mainly include thermal decomposition method, chemical precipitation method, hydrothermal method and sol-gel method. The preparation raw materials and reaction conditions affect the surface structure and properties of magnesium oxide. Magnesium oxide is highly

Nano-magnesium oxide is a new type of high-function fine inorganic material. Nano-magnesium oxide is widely used in electronics, catalysis, ceramics, oil products, coatings and other fields. Flame retardants for chemical fiber and plastic industries; medium and high temperature dewatering agents for silicon steel sheet production, advanced ceramic materials, electronic industry materials, binders and additives in

A few days ago, 15 tons of food additive magnesium oxide products produced by Hebei Messi Biology Co., Ltd. were successfully exported to Malaysia through Guangzhou Port. Food additive Magnesium oxide is an ionic compound, which can be processed from magnesium ore through calcination, pyrolysis and other processes. Tibet Mag Technology Co., Ltd., a subsidiary

Magnesium oxide (MgO) is a high-melting basic oxide with a melting point as high as 2820 degrees Celsius, which is higher than that of zirconia. Its density is 3.58g/cm3~3.60g/cm3, Mohs hardness is 5~6, and thermal expansion coefficient is 14.3X. It has high resistivity and high dielectric constant at high temperature, and is a high-temperature insulating

Tibet Mag stated that the main advantages of the nickel-cobalt ore hydrometallurgical activated magnesia process are low acid consumption, high nickel-cobalt leaching rate, low neutralizer consumption and high purity of the leachate. The process flow is shown in the figure. The specific process is as follows: the limonite-type laterite-nickel ore is leached with sulfuric acid

Tibet Mag stated that as an important functional inorganic material, magnesium oxide is widely used in metallurgy, electronics, catalysis, ceramics, coatings, medicine, adsorption, refractory materials and optical materials. Mineral direct pyrolysis method, chemical precipitation method, gas phase hydration method, carbonization method, ammonium bicarbonate method, spray pyrolysis method, hydrothermal method, sol-gel method and other methods are