Brominated Flame Retardants (BFRs) have successfully been used in electronic products for decades to reduce fire-related injury and damage, however many companies have chosen non-Halogen based flame retardants in Printed Circuit Board (PCBs) to meet their performance and sustainability requirements.
While it is not yet legislated that electronic component suppliers must remove brominated and chlorinated flame retardants from their materials, Isola offers a variety of high performance non-halogenated prepregs and laminates to meet the electronic industry’s increased performance demands and marketing requirements for environmentally-friendly designs. Additionally, Isola materials are engineered for thermal reliability to stand up to the rigors of soldering conditions and chemical resistance to survive etching and plating operations.
- Halogen-free materials that meet IPC/JEDEC J-STD-709
for Bromine and Chlorine content
- Lead-free assembly compatible
- Enhanced signal integrity
- Enhanced CAF performance
- Mobile and Wireless Devices
- Signal Integrity
- High End Computing
Related Materials From Isola
Fire Retardancy What, Why and How
The paper takes a critical look at all aspects of fire retardancy, starting with the need for fire safety.
High Tg Bromine-free Laminates for PWB Applications
This paper describes chemical approaches that have been evaluated and the effects of those approaches on the performance of these laminates in the fabrication of circuit boards.
Halogen Free Base Materials for PWB Applications
This paper discusses the challenges and concerns of commercially-available non-halogen materials.
Thermal Analysis of BASE MATERIALS Through Assembly
This article discusses if current analytical techniques predict and characterize differences in laminate performance prior to exposure to thermal excursions during assembly?
Meeting Flame Resistance Requirements for Green Electronics
This presentation discusses challenges and opportunities for halogen-free laminates.
Challenges and Opportunities for Halogen-free Flame Retardants in Anisotropic Composite Dielectric Materials for RF and Microwave Applications
This presentation describes the Flame Retardants (FRs) used in electronic materials and new opportunities for growth.