The influence of the crystal structure of industrial grade magnesium oxide on its properties

The properties of technical-grade magnesium oxide are significantly affected by its crystal structure, which is crucial in the field of materials science. Understanding these effects can help optimize magnesium oxide applications, particularly in the development of high-performance materials and flame retardants. Below are key points on how crystal structure affects the performance of industrial grade magnesium oxide. This information is crucial for SEO optimization.

Solubility and crystal structure The stability of the crystal structure has an important influence on the solubility and recrystallization behavior of magnesium oxide during hydrothermal modification. Before and after hydrothermal modification, the crystal diffraction peak position of magnesium oxide did not change, indicating that the lattice structure remained unchanged, which is crucial for the stability and application of the material.

Morphology and crystal structure The effects of different hydrothermal media on the growth of magnesium oxide crystals lead to differences in product morphology. After modification with pure water and sodium carbonate, the (001) crystal face of magnesium oxide is exposed more, the crystal polarity is weakened, and it is easier to mix with organic materials, which is crucial for improving the compatibility and application performance of the material.

Particle size distribution and crystal structure Changes in sodium hydroxide concentration have a significant impact on the hydrothermal modification of magnesium oxide. As the concentration of sodium hydroxide increases, the particle size of the product tends to be uniform, and the concatenation and agglomeration of crystals decrease, which is of great significance for controlling the particle size distribution and morphology of the material.

Physical and chemical properties and crystal structure The crystal structure of hexagonal magnesium oxide exhibits regular hexagonal sheets. This unique morphology gives it a series of excellent physical and chemical properties, such as high specific surface area and abundant surface hydroxyl groups. It is crucial to improve the flame retardant and mechanical properties of materials.

Flame retardant properties and crystal structure The crystal structure and particle size of industrial grade magnesium oxide have a significant impact on its performance as a flame retardant. Modification of industrial-grade magnesium oxide through hydrothermal technology can expose its non-polar surface and uniformly disperse crystals to achieve efficient flame retardant properties.

Electrical Properties and Crystal Structure Due to its regular crystal structure and good dispersion, hexagonal magnesium oxide can be more effectively combined with the cable material matrix to reduce the negative impact on the mechanical properties. At the same time, as an inorganic flame retardant, it has good effects on the cable material. Electrical performance is less affected.

The crystal structure of industrial grade magnesium oxide has a decisive influence on its performance. By controlling and optimizing the crystal structure, the performance of magnesium oxide materials can be significantly improved to meet the needs of different industrial applications.