FRIANYL® XT4 GF30 V0I by Celanese stands as a pinnacle in engineering excellence. This grade, boasting 30% glass fiber reinforcement, is heat stabilized and halogen- and red phosphorus-free, ensuring optimal safety and performance. Let’s delve into its remarkable attributes:
Exceptional Flame Retardancy and Thermal Stability
FRIANYL® XT4 GF30 V0I is flame retardant, complying with UL 94 V-0 Flame Rating, making it ideal for applications demanding stringent safety measures. Its heat stabilization ensures sustained performance even at elevated temperatures, guaranteeing reliability in the most demanding environments.
High Stiffness and Strength at Elevated Temperatures
This grade exhibits high stiffness and strength at elevated temperatures, ensuring structural integrity under extreme conditions. Whether facing high mechanical loads or thermal stress, FRIANYL XT4 GF30 V0I delivers consistent performance, making it a reliable choice for critical applications.
Ease of Processing with Superior Aesthetic Results
FRIANYL XT4 GF30 V0I offers ease of processing coupled with excellent aesthetic results. Its compatibility with injection molding processes ensures efficient production while maintaining impeccable surface finish, meeting the most demanding aesthetic requirements.
Versatile Applications in Electrical and Electronic Industries
Specifically designed for electrical and electronic applications, FRIANYL® XT4 GF30 V0I finds its place in a wide array of components, including relays, electronic connectors, fuse holder levers, LED sockets, medium voltage switches, motor brush holders, motor contactors, circuit breaker components, sensor housings, switch housings, and coils. Its ability to withstand the reflow soldering process (SMT) further enhances its suitability for modern electronics manufacturing.
Elevate your engineering projects with FRIANYL XT4 GF30 V0I. Trust in its exceptional attributes to meet and exceed the rigorous demands of electrical and electronic applications, ensuring unparalleled performance and safety.