With the rapid development of the electronics industry and increasing demands for higher performance electronic products, the application of magnesium hydroxide in this sector is expected to continue growing. Simultaneously, advancements in technology are continuously improving magnesium hydroxide’s production techniques and application performance, opening up further possibilities for its widespread use. Furthermore, the growing emphasis on environmental protection and sustainable development by governments worldwide will drive the adoption and development of environmentally friendly inorganic flame retardants like magnesium hydroxide in the electronics industry.
Flame Retardant Material: Magnesium hydroxide, as an environmentally friendly inorganic flame retardant, plays a crucial role in the flame-retardant treatment of electronic materials. Its non-toxic, halogen-free, and smoke-suppressing properties give it a unique advantage in flame-retardant treatments for cables, circuit boards, and other electronic materials.
Insulating Material: Magnesium hydroxide possesses excellent insulating properties and can be used to create insulating coatings or fillers for electronic components. High-purity magnesium hydroxide, applied as coatings, fillers, or films, forms a dense insulating barrier, effectively isolating electrical connections between electronic components and preventing current leakage along unintended paths. This ensures accurate signal transmission and stable operation of the components. In circuit board manufacturing, magnesium hydroxide is often used as a solder resist or insulating layer material; its superior insulation and processing properties enable circuit boards to maintain good electrical performance even in complex environments.
Capacitors and Semiconductor Devices: High-purity magnesium hydroxide can serve as a raw material for capacitors and semiconductor devices, enhancing their electrical performance and stability.
Electromagnetic Shielding Material: Magnesium hydroxide’s high dielectric constant allows for the production of highly efficient electromagnetic shielding materials, effectively blocking electromagnetic interference and protecting sensitive electronic components from damage.
Lithium Battery Material: In lithium batteries, magnesium hydroxide acts as an additive significantly improving battery safety and stability. Its high thermal stability and chemical inertness make it an ideal choice for lithium battery separators and electrode materials.
Fuel Cell Material: Magnesium hydroxide can also be used in fuel cell electrolyte materials, helping to improve battery performance and lifespan.
Plastics: The addition of magnesium hydroxide enhances the mechanical strength and heat resistance of plastics, allowing them to maintain stable performance under high temperatures. This material finds widespread application in the aerospace and automotive industries.
Electronic Ceramics: In electronic ceramics, magnesium hydroxide serves as a sintering aid, improving the density and electrical properties of the ceramic materials.
Magnetic Device Filler: Magnesium hydroxide exhibits good magnetic conductivity and can be used as a filler in magnetic devices, enhancing the magnetic performance and stability of electronic equipment.
High Thermal Conductivity Material: Magnesium hydroxide’s high thermal conductivity contributes to improved heat dissipation efficiency in electronic devices, extending their lifespan. It will play a significant role in the thermal design of high-performance electronic equipment.