The mechanical and flame retardant properties of polypropylene (PP) were significantly improved by silane modification of ADP. The article delves into the influence of different silane coupling agents on the modification effect of ADP, as well as the improvement of modified PP in terms of tensile strength, elongation at break, ultimate oxygen index and heat release rate. This technological breakthrough provides safer and more efficient solutions for the application of PP composites in automotive, electronics and construction fields, and promotes the green transformation and performance upgrading of modern industrial materials.   Read More>

Explore the innovation of flame retardant technology for polymer materials, and gain an in-depth understanding of the combustion characteristics of PP, PE, PS, PVC and other plastics and the application of environmentally friendly flame retardants, and how to balance the cost and achieve efficient flame retardancy.   Read More>

With the increasing global environmental awareness and the emphasis on health and safety issues, traditional halogen flame retardants are gradually being eliminated by the market due to potential environmental and health risks. In this context, a new generation of green and environmentally friendly phosphorus flame retardants, alkyl phosphinate flame retardants, especially diethylphosphinate and its derivatives, such as aluminum diethylphosphinate (ADP), have gradually become the new favorites of the market due to their significant environmental friendliness and high efficiency.   Read More>

Aluminum hydroxide a reliable flame retardant, but it also offers a favorable environmental profile. Its non-toxic nature, minimal smoke production, and absence of harmful gas emissions align with sustainable fire safety practices and regulations. By choosing aluminum hydroxide, we can ensure that fire safety measures prioritize both human health and environmental impact. While aluminum hydroxide presents numerous advantages, it is crucial to consider its limitations. The potential impact on mechanical performance, high filler content requirement, limited thermal stability, and the importance of particle size and distribution should be carefully weighed when using aluminum hydroxide as a flame retardant.   Read More>

Aluminum diethyl hypophosphite (ADP) promotes the development of halogen-free flame retardant technology and provides a new, safer and more environmentally friendly flame retardant method, which also gives people a better choice and a more reliable flame retardant protection. We expect that in the future research, ADP can bring more breakthroughs and provide more possibilities for flame retardant technology.   Read More>