BAE Systems writes a new page in aviation history by developing the first aircraft that uses supersonic air jets instead of the classic "flaps" to provide direction.
With its first takeoff over Llanbedr's Campovolo in Gwynedd, Scotland, the “Magma” drone shows the first steps of a technology that could revolutionize airplane design.
The current situation
Today, conventional aircraft are prey to a complex system of flaps, ailerons, elevators, rudders and other control surfaces that serve to fly in directions other than the straight one.
After more than a century of development, it is a component that has evolved very little, continues to be inefficient and involve the presence of too many mechanical parts subject to wear.
The BAE project in collaboration with the British government and the University of Manchester replaces all these elements with a "simple" air jet technology that controls the direction of the aircraft.
The type of action includes two different systems: a “Wing Circulation Control” which is based on a jet of air in a special duct which acts as an aileron, and a “Fluid Thrust Vector” which deflects a part of the air expelled from the turbines into the nozzles to change the positioning of the aircraft.
Taken as a whole, “Magma technology” has the potential to improve both control and performance of aircraft that would be lighter, cheaper and more reliable. What's more: with fewer moving parts, the shapes of the aircraft would allow greater "invisibility" to radar.
“We are excited to be part of the largest effort to change the way aircraft will be moved and controlled, developing the most innovative solutions since the birth of the Wright Brothers' moving wing,” says Bill Crowther, leader of the Magma project at the University of Manchester.
“The partnership with BAE Systems has allowed us to focus on research, leaving the industrial application to them. 20 years ago we developed the first prototype with two glued pieces of plastic and a hairdryer to test them. Today the components are made of titanium, are 3D printed and tested directly on in-flight systems. We couldn't ask for anything better."