Recorded on October 13, 2020
Presented by DuPont
In this technical webinar, DuPont will introduce the company’s new Crastin® FR68XNH1 family of resins for electrical and electronics applications. These Crastin® PBT materials:
- Deliver superior electrical properties without halogenated flame retardants
- Enable compliance with regulatory standards (viz. RoHS) and safety standards (viz. UL, VDE).
- Provide higher flow to enable thinner, lighter and space saving designs.
With Crastin® FR68XNH1 resins, greater performance and productivity can be achieved while being compliant with all relevant regulations.
In fact, these new grades provide a higher CTI, higher flow and lower density than halogenated PBT resins, plus a good balance of mechanical properties and equivalent processing performance. They also feature an excellent surface finish and are laser markable.
The webinar will include technical details and test results on the Crastin® FR68XNH1 PBT products’ heat aging performance, melt viscosity, electrical properties at elevated temperatures and color stability.
Download the slides
Contact the Presenters / Ask a Question
The views, opinions and technical analyses presented here are those of the author or advertiser, and are not necessarily those of ULProspector.com or UL. The appearance of this content in the UL Prospector Knowledge Center does not constitute an endorsement by UL or its affiliates.
All content is subject to copyright and may not be reproduced without prior authorization from UL or the content author.
The content has been made available for informational and educational purposes only. While the editors of this site may verify the accuracy of its content from time to time, we assume no responsibility for errors made by the author, editorial staff or any other contributor.
UL does not make any representations or warranties with respect to the accuracy, applicability, fitness or completeness of the content. UL does not warrant the performance, effectiveness or applicability of sites listed or linked to in any content.