Automotive flame-retardant plastics, while improving mechanical properties to meet the demand for lightweighting, focuses on the material's flame-retardant, electrical, processing and environmental performance. It can be widely used in key components such as battery pack modules and charging piles that will cover new energy vehicles, as well as interior and exterior parts of traditional vehicles.
The 25th China Plastics Expo will be held from Nov. 5th to Nov. 8th at the China Plastics City International Exhibition Center in Yuyao, Zhejiang Province. We sincerely invite new and old customers to visit Yinsu booth to discuss the industry trends, witness the innovative technologies and open a new chapter of cooperation hand in hand!
Learn about epoxy resins and how epoxy resins, or epoxy resins with flame retardant, are used in everything from building reinforcement to electronic packaging!
Flame retardants are playing a vital role in ensuring the safety and reliability of new energy vehicles, particularly in the context of e-mobility. As the demand for electric vehicles continues to rise, it is crucial to address the potential fire risks associated with the high energy density and currents in battery systems. Flame retardants offer effective solutions to mitigate these risks and enhance the overall safety of electric vehicles.
Discover how microencapsulated red phosphorus flame retardants can enhance performance and ease of handling. This paper provides an in-depth analysis of the use of microencapsulation technology in red phosphorus flame retardants, revealing how this innovative material is revolutionizing industries such as plastics, rubber and textiles through enhanced flame retardancy and improved handling. Learn how microencapsulated red phosphorus flame retardants have become a new industry favorite by reducing health and environmental risks while improving the fire safety of materials.
Explore the flame retardant modification technology of ABS resin and new environmentally friendly flame retardants, and gain an in-depth understanding of how to improve the performance of materials.