Exploring revolutionary breakthroughs in composite materials, YINSU brings three cutting-edge flame retardants, FRP-750A, FRP-950X and composite antimony T3, to lead a new era of material safety.
Explore the wonders of future technologies and gain insight into seven of the most promising composite materials that are reshaping every aspect of industry and everyday life.
This article classifies flame retardants into four categories: organic flame retardants, inorganic flame retardants, nano-materials flame retardants and composite flame retardants, among which organic flame retardants can be subdivided into halogen-containing organic flame retardants and halogen-free organic flame retardants, halogen-free organic cationic flame retardants can be divided into phosphorus-containing flame retardants, silicone-containing flame retardants and nitrogen-containing flame retardants etc., and the inorganic flame retardants can be divided into aluminum hydroxide flame retardants and magnesium hydroxide flame retardants. Aluminum hydroxide flame retardant and magnesium hydroxide flame retardant, etc., for the different flame retardants and the effect of the differences in the role of the object, its flame retardant mechanism and its advantages and disadvantages of the analysis of the introduction, the conclusion is that the flame retardant applicable is different
New Development of Composite Flame Retardant Composite flame retardant flame retardant mechanism Compound, is a material composed of reinforcing materials and matrix materials combined with each other, so that the advantages of each component can be fully utilized.
The importance of composite flame retardants in preventing polymeric materials in the currently development.
Flame retardants can greatly improve the flame retardant and fire retardant properties of polymer composites, and improve the flame retardant properties of the materials are widely used in transportation, electronic equipment, household and other building materials industry.Inorganic flame retardant