IBC Advanced Alloys Delivers First Articles EOTS Components for the Lockheed Martin F-35 Lightning II

WILMINGTON, MA and VANCOUVER - IBC Advanced Alloys Corp. delivers its first completed Beralcast azimuth gimbal housing components to Lockheed Martin. The articles will be used in the Lockheed Martin F-35 Lightning II Electro Optical Targeting System (EOTS).

Lockheed Martin's EOTS provides affordable, high-performance multi-function targeting to the F-35's full spectrum of military operations. It is the first sensor to combine forward-looking infrared and infrared search and track functionality to provide F-35 pilots with situational awareness and air-to-air and air-to-surface targeting from a safe distance. The technology enables aircrews to identify areas of interest, perform reconnaissance and precisely deliver laser- and GPS-guided weapons.

Ray White, President of IBC Engineered Materials Corp. said, "Successful first article delivery of Beralcast components to Lockheed Martin raises the bar for high performance aerospace applications delivered with cost and lead time savings. This is an important milestone for both IBC and the aerospace industry," continued White, "and we look forward to continuing to support Lockheed Martin and aerospace with IBC's Beralcast cast alloys."

The first contract for Beralcast azimuth gimbal housing components for OEM aircraft fitted with EOTS systems and spares for low-rate initial production (LRIP) Lots 7 and 8 was announced September 8, 2014. Beralcast® alloys are ideally suited to many aerospace applications where lightweight, high modulus and cost are critical performance factors. The principal Beralcast® alloys are three times stiffer than aluminum with 22% less weight and can be substituted for aluminum, magnesium, titanium, metal matrix composites as well as pure beryllium or powder metallurgy beryllium-aluminum.

For more details. visit http://www.ibcadvancedalloys.com
 

Suggested Articles

Standards for airplane ventilation are actually tougher

Coronavirus to cause $70 million reduction in revenues for 2Q

The system works on Shaped Magnetic Field In Resonance technology