Magnesium Hydroxide

Hebei Messi Biology Co., Ltd. stated that by using specific compounds to surface modify magnesium hydroxide, it can solve its shortcomings of high surface free energy, strong polarity, and easy agglomeration, making its surface hydrophobic and improving the interaction between magnesium hydroxide and magnesium hydroxide. Polymer compatibility. At present, the commonly used surface modification methods […]

As a flame retardant for high molecular polymers, the most important thing for magnesium hydroxide is to be well compatible with the high molecular polymers, achieve uniform dispersion, and ultimately achieve the purpose of flame retardancy. However, magnesium hydroxide has hydrophilic and oleophobic surface properties and high surface energy. Filling the material into the material

Hebei Messi Biology Co., Ltd. stated that when magnesium hydroxide is prepared from brine, the F potential of the precipitated particles undergoes a process from positive to negative, and its absolute value changes from large to small and then to large. In this process, there is bound to be a secondary agglomeration phenomenon. produced, causing

Hebei Messi Biology Co., Ltd. stated that leaf spot is an important leaf disease of mango, causing a decrease in mango yield and quality. The pathogenic bacteria is Phomopsis mango leaf spot pathogen. Nanomagnesium hydroxide is simple to prepare, environmentally friendly and has a broad antibacterial spectrum, and is widely used in the antibacterial field.

Hebei Messi Biology Co., Ltd. stated that there are many types of flame retardants, and magnesium hydroxide is undoubtedly the one with the best flame retardant effect. This is because it decomposes and releases bound water when heated to absorb a large amount of latent heat and reduce the filled content. Surface temperature of synthetic

Magnesium hydroxide is an important magnesium chemical product. As an alkali agent with extremely strong buffering properties and efficient chemical adsorption properties, it is widely used in environmental protection, ceramic materials, medicine and other fields. In recent years, due to its characteristics of high decomposition temperature, high thermal stability, non-toxic, smokeless and smoke suppression, it

Hebei Messi Biology Co., Ltd. stated that in recent years, magnesium hydroxide has received widespread attention at home and abroad as a flame retardant. Compared with halogen flame retardants, magnesium hydroxide can not only improve the flame retardant effect of materials, but also has no smoke and halogenation. Toxic gases such as hydrogen are generated.

Precipitation method An aqueous solution of magnesium salt (e.g., MgCl2) is mixed with an aqueous solution of sodium hydroxide or calcium hydroxide to produce a magnesium hydroxide precipitate. Filter and wash the precipitate to remove impurities. Dry the precipitation to obtain high specific surface area magnesium hydroxide powder. Thermal decomposition method Magnesium carbonate (MgCO3) or

INTRODUCTION EVA (ethylene vinyl acetate copolymer) is a flexible thermoplastic elastomer widely used in photovoltaic cells and electrical applications due to its excellent transparency, flexibility and insulating properties. Magnesium hydroxide (Mg(OH)2) is a flame retardant and filler that improves the thermal stability and mechanical properties of composites. The aim of this study is to characterize

Principle The brine ammonia reverse precipitation method utilizes the chemical reaction between brine (containing magnesium chloride) and ammonia to generate magnesium hydroxide precipitation, and by controlling the reaction conditions, the product of magnesium hydroxide with hexagonal flake shape is obtained. Process flow Pre-treatment of raw materials: brine is clarified, concentrated and decontaminated to obtain qualified