Fluidic thrust vectoring and control refer to a suite of aerodynamic techniques that achieve directional control of engine thrust by modulating the flow field through the injection of secondary ...

Fluidic thrust vectoring nozzles represent a promising approach in aerospace propulsion, utilising the controlled injection of secondary flows to manipulate the primary exhaust stream. This innovative ...

In the dynamic chessboard of air combat, Russia’s Su-35 and China’s J-35 embody two diametrically opposed approaches to fighter design one based on supermaneuverability and sheer power, the other on ...

As an experimental Su-27 variant, the Su-27LL-PS tested advanced 2D thrust vectoring for enhanced maneuverability, providing critical insights into supermaneuverable flight dynamics, material ...

Summary and Key Points: The X-44 MANTA was an experimental aircraft developed by the U.S. Air Force based on the F-22 Raptor, designed without traditional tail surfaces to reduce radar visibility and ...

The new stealthy nozzle has been installed on the left engine of the T-50-2 prototype, the same used to test the new AL-51F engine. A Russian Su-57 fighter has been finally equipped with a new ...

ZHUHAI, China—An AVIC-owned J-10B testbed demonstrated in a Nov. 6 flying display showed China’s new mastery of extreme aerial maneuverability aided by an experimental thrust vectoring control system.

With small control surfaces and no thrust vectoring, the F-35 cannot change direction rapidly in close-range engagements. While hyper maneuverability has become a cornerstone of modern fighter jet ...

FAA regulations require drone enthusiasts and commercial operators to equip their unmanned aircraft with approved remote identification (RID) capability. Following the FAA’s deadline on March 24, 2024 ...

No accolade could better describe how exemplary the F-22 Raptor is as a fighter jet than that its production run was quartered because it was peerless in air-to-air combat. The F-22's rectangular ...