Aeromaoz Selected for Critical FLRAA Project Display Bezels – News Announcement
We are excited to announce that Aeromaoz has been chosen to develop and manufacture five different bezels for the US Airforce’s Future Long-Range Assault Aircraft program set to transform military aviation by 2030! This prestigious selection validates our position as a leading provider of mission-critical human-machine interface solutions.
Ilan Wilf, Aeromaoz’s VP Sales & Marketing, expressed his pride in this achievement, highlighting how our engineering excellence secured this important contract. “This selection demonstrates the confidence our partners have in Aeromaoz’s ability to deliver rugged, reliable HMI solutions that perform flawlessly in the most demanding environments,” said Wilf.
Aeromaoz’s development will be seamlessly integrated into the displays and control systems of the aircraft, working alongside prime contractors Bell Textron and other contractors. Our selection was based on several key advantages that set us apart in the aerospace industry:
• Multidisciplinary Engineering Excellence: Our integrated approach combining mechanical and electrical, thermal, and software engineering ensures optimal tacticle functionality under extreme conditions
• End-to-End Development Process: From comprehensive requirements analysis through environmental testing to production-ready systems
• Proven Environmental Durability: Our designs withstand temperature ranges from -40°C to +85°C, extreme vibrations, and electromagnetic interference
• Operator-Centric Design Philosophy: Creating interfaces that enhance rather than hinder human performance under stress
• Advanced Manufacturing Capabilities: In-house precision manufacturing with rigorous quality control ensuring consistent reliability
The bezels will undergo our comprehensive environmental testing protocols, including temperature cycling, vibration testing, humidity exposure, salt spray testing, and electromagnetic compatibility verification. This ensures mission-ready performance in the harsh operational environments typical of military aviation applications.