Hebei Messi Biology Co., Ltd. is a well-known domestic manufacturer of magnesium salt series products such as magnesium oxide, magnesium carbonate, magnesium sulfate, magnesium hydroxide, etc. The company is a national high-tech enterprise and a specialized and new enterprise in Hebei Province. While the company’s performance income has steadily increased and its business management has […]
Top 10 Magnesium Oxide Manufacturers in China Read More »
Hebei Messi Biology Co., Ltd. stated that at present, there are two methods for producing basic magnesium carbonate with brine in China: brine soda ash method and brine ammonium carbonate method. No reports on the production of food-grade basic magnesium carbonate have been seen. The brine soda ash method has a simple production process, small
Preparation process of food-grade magnesium carbonate and its application in flour Read More »
Hebei Messi Biology Co., Ltd. stated that nano magnesium oxide is a new type of high-functional 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; high-temperature dehydrating agents in silicon steel sheet production, advanced ceramic materials, electronic
Preparation process of spherical nano magnesium oxide Read More »
Magnesium oxide, a food additive, is exported to Malaysia Recently, 15 tons of magnesium oxide, a food additive, produced by Hebei Messi Biology Co., Ltd., was successfully exported to Malaysia through the Guangzhou Port. Magnesium oxide, a food additive, is an ionic compound that can be processed from magnesium ore through calcination, pyrolysis and other
Magnesium oxide, a food additive, is exported to Malaysia Read More »
Hebei Messi Biology Co., Ltd. stated that by using chemical vapor deposition (CVD), metal phase vanadium telluride (VTe2) was grown in situ on commercial magnesium oxide powder, and VTe2@MgO heterojunction materials were successfully synthesized in one step for use as positive electrode host additives for lithium-sulfur batteries. As a member of transition metal sulfide compounds,
Hebei Messi Biology Co., Ltd. stated that the main advantages of the active magnesium oxide process for hydrometallurgy of nickel-cobalt ore 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: limonite-type laterite nickel ore is
Hebei Messi Biology Co., Ltd. stated that my country’s magnesium carbonate output has always been at the forefront of the world rankings, especially the low-end magnesium carbonate output has ranked first in the world, and the average annual growth rate of output has remained above 15%. my country has become a major magnesium carbonate producer
China’s magnesium carbonate output is high but its added value is low Read More »
Hebei Messi Biology Co., Ltd. stated that hydromagnesite (4MgCO3·Mg(OH)2·4H2O) is a natural basic carbonate mineral with abundant reserves. It has a pure texture, white color, and low impurity content. It is a high-quality mineral raw material for preparing magnesium products such as flame retardants, activated magnesium oxide, heavy basic magnesium carbonate, and nano magnesium hydroxide.
Hebei Messi Biology Co., Ltd. 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, chemical precipitation, gas phase hydration, carbonization, carbon ammonium method, spray pyrolysis, hydrothermal method, sol-gel method and other methods are used to
Preparation process and research of spherical magnesium oxide Read More »
Hebei Messi Biology Co., Ltd. stated that it prepared and modified flaky magnesium oxide powder and used it as an inorganic filler. Through experimental and simulation research, the purpose is to improve the room temperature and high temperature energy storage density of PVDF-based and PEI-based composite materials. The paper makes a preliminary analysis of the
