By selecting flame retardants with high thermal stability, optimizing processing parameters and adopting new processing technologies, manufacturers can effectively address processing temperature limitations. It helps to improve the performance and quality of flame-retardant rubber products and meet market demand and regulatory requirements.   Read More>

Through a combination of cost management, technological innovation, environmental certification and industry cooperation strategies, manufacturers can meet flame retardant requirements while controlling costs and ensuring environmental and human health safety.   Read More>

The stability of the flame retardant and the properties of the rubber are ensured by a variety of different strategies to overcome the limitations of the processing temperature.   Read More>

The global rubber flame retardant market is promising, especially in the Asian market, where China will continue to play its dominant market position. Enterprises need to pay attention to changes in environmental regulations and seize opportunities for technological innovation in order to meet the challenges of the market.   Read More>

This article provides an insight into the research progress and application breakthroughs of inorganic flame retardants in rubber. With the increased global concern for material safety, the application of inorganic flame retardants such as aluminum hydroxide (ATH), magnesium hydroxide (MDH), red phosphorus flame retardants, and halogen-free flame retardants in the rubber industry has become a hot research topic. These flame retardants significantly enhance the safety of rubber products by improving the thermal stability and flame retardant properties of rubber.   Read More>