NASA Armstrong Flight Research Center advanced multi-mission flight research in 2025, including supersonic testing, high-speed aircraft, air mobility, Earth observation, exploration technologies, and ...

Toray Cetex TC1225 low-melt PAEK achieves further National Center for Advanced Materials Performance qualifications.

A Maryland-based company is set to integrate advanced AI-driven sustainment solutions into the U.S. combat aircraft fleet.

In avionics, the integration of advanced sensor technologies is revolutionizing aircraft safety and performance. Two key innovations driving this trend are engine vibration diagnostics and “smart ...

The USS Gerald R. Ford (CVN-78) is the lead ship of the Navy's newest aircraft carrier class and the most technologically advanced carrier in the world. Delivered in 2017, it replaced the USS ...

Modern aerospace engineering increasingly relies on the seamless integration of advanced performance modelling with state‐of‐the‐art flight control systems. These systems optimise aerodynamic ...

In the high-stakes world of aviation, technological revolutions often come with fanfare. New aircraft models, touch-screen cockpits, and autonomous taxiing systems make headlines and capture public ...

Morphing aircraft represent a paradigm shift in aerospace design, integrating adaptive structures and advanced control systems to optimise aerodynamic performance across a range of flight conditions.

NASA Armstrong Flight Research Center in 2025 conducted high-speed, supersonic, and hypersonic aircraft tests, supporting aeronautics, air mobility, and Earth observation through experimental flights ...

In this interview, industry expert Gretchen Reimbold discusses the critical role of thermal insulation in aviation and how innovative materials are shaping the future of aerospace performance and ...