As an important inorganic material, aluminum hydroxide has multiple functions such as flame retardant, smoke suppression and filling, and is widely used in electronics, transportation, plastics and rubber industries. However, some physical and chemical properties of aluminum hydroxide limit its application in some fields, therefore, its performance can be significantly improved and the application range can be broadened by modifying it by coating modification technology.
Aluminum hydroxide is a white, amorphous powder that is divided into two types: industrial grade and medical grade. Industrial grade aluminum hydroxide is mainly used as flame retardants, fillers, and smoke suppressants, etc., while medical grade aluminum hydroxide is used as an antacid drug for the treatment of stomach problems. The production methods of aluminum hydroxide include industrial methods, hydrothermal methods, gel methods, carbon separation methods, and other acid-base synthesis methods.
The coating modification technology is to form one or more layers of coating layer on the surface of aluminum hydroxide particles, change their surface properties, and improve the compatibility and adhesion with the organic matrix. This modification method not only improves the processing properties of aluminum hydroxide, but also improves its flame retardant properties and mechanical strength. Cladding modifiers play an important role in aluminum hydroxide processing. First of all, the flame retardant performance can be improved: the flame retardant performance of aluminum hydroxide is significantly improved by the modification of aluminum hydroxide by the honeycomb mill of the modifier. The cladding layer can hinder the agglomeration between aluminum hydroxide particles and improve the affinity between them and organic polymers, so as to play a more effective flame retardant role. Improved processability: Modified aluminium hydroxide offers significantly improved processability in plastics, coatings, polyurethane elastomers and rubber products. The cladding layer can increase the distance between aluminum hydroxide particles, reduce the agglomeration phenomenon, make it more evenly distributed during processing, and improve the overall performance of the material. Enhanced mechanical strength: Cladding modification can also enhance the mechanical strength of aluminum hydroxide. The cladding layer can increase the adhesion between the particles and improve the impact resistance and wear resistance of the material. Meet safety and environmental requirements: In areas such as food packaging materials and building materials, modified aluminium hydroxide can meet specific safety and environmental requirements. The cladding layer can reduce the environmental pollution of aluminum hydroxide, while improving its compatibility with organic matrices。
Aluminum hydroxide is a white, amorphous powder that is divided into two types: industrial grade and medical grade. Industrial grade aluminum hydroxide is mainly used as flame retardants, fillers, and smoke suppressants, etc., while medical grade aluminum hydroxide is used as an antacid drug for the treatment of stomach problems. The production methods of aluminum hydroxide include industrial methods, hydrothermal methods, gel methods, carbon separation methods, and other acid-base synthesis methods.
The coating modification technology is to form one or more layers of coating layer on the surface of aluminum hydroxide particles, change their surface properties, and improve the compatibility and adhesion with the organic matrix. This modification method not only improves the processing properties of aluminum hydroxide, but also improves its flame retardant properties and mechanical strength. Cladding modifiers play an important role in aluminum hydroxide processing. First of all, the flame retardant performance can be improved: the flame retardant performance of aluminum hydroxide is significantly improved by the modification of aluminum hydroxide by the honeycomb mill of the modifier. The cladding layer can hinder the agglomeration between aluminum hydroxide particles and improve the affinity between them and organic polymers, so as to play a more effective flame retardant role. Improved processability: Modified aluminium hydroxide offers significantly improved processability in plastics, coatings, polyurethane elastomers and rubber products. The cladding layer can increase the distance between aluminum hydroxide particles, reduce the agglomeration phenomenon, make it more evenly distributed during processing, and improve the overall performance of the material. Enhanced mechanical strength: Cladding modification can also enhance the mechanical strength of aluminum hydroxide. The cladding layer can increase the adhesion between the particles and improve the impact resistance and wear resistance of the material. Meet safety and environmental requirements: In areas such as food packaging materials and building materials, modified aluminium hydroxide can meet specific safety and environmental requirements. The cladding layer can reduce the environmental pollution of aluminum hydroxide, while improving its compatibility with organic matrices。
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