Shine Polymer introduces Shinepoly LP3380, a groundbreaking anti-dripping agent engineered to enhance fire safety in thermoplastics. Let’s explore the exceptional features and applications of Shinepoly LP3380.
Advanced Anti-Dripping Properties
Shinepoly LP3380 is a series of chemically modified PTFE granules designed to elevate the anti-dripping properties of thermoplastics. By incorporating Shinepoly LP3380 into formulations, plastics achieve enhanced resistance to dripping, meeting stringent UL 94 V0 and V1 standards. Additionally, compared to virgin PTFE, Shinepoly LP3380 enhances melt strength and flexural modulus, ensuring superior performance and safety.
Exceptional Dispersibility and Handling
Shinepoly LP3380 boasts exceptional dispersibility and easy handling features. With minimal agglomeration at room temperature, it seamlessly integrates into plastic compound formulations. This results in smooth surfaces with fewer gels and knitlines in molded parts, enhancing overall aesthetics and quality.
Versatile Application Range
Shinepoly LP3380 finds application across a wide range of thermoplastics, including PC, PS, ABS, PBT, PPO, and their alloys, requiring anti-dripping properties. Whether in automotive components, electronic enclosures, or household appliances, Shinepoly LP3380 enhances fire safety and performance in various applications.
Seamless Integration into Processing
Shinepoly LP3380 can be effortlessly added directly into plastic compound extrusion processes. Typical concentrations range from 0.1% to 1%, providing manufacturers with flexibility in formulation while ensuring consistent and reliable anti-dripping performance.
Conclusion
In conclusion, Shine Polymer’s Shinepoly LP3380 sets a new standard for anti-dripping agent, offering unmatched fire safety and performance enhancement in thermoplastics. With its advanced formulation, exceptional dispersibility, and seamless integration into processing, Shinepoly LP3380 is the ideal choice for manufacturers prioritizing fire safety in their products.