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 ...

The electric solar wind sail is a propulsion system that uses the solar wind proton flow as a source of momentum for spacecraft thrust. The momentum of the solar wind is transferred to the spacecraft ...

In view of the control effects of fluidic thrust vector technology for low-speed aircraft at high altitude/low density and low altitude/high density are studied. The S-A model of FLUENT software is ...

video: The maneuverability of unmanned aerial vehicles can be greatly enhanced through the use of variable vectoring technique. The current research developed a novel variable thrust direction ...

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 ...

Lockheed Martin’s “Multi-Axis No-Tail Aircraft”—was a bold idea: skip the vertical and horizontal tails, enlarge the wing, and use thrust-vectoring and advanced flight controls to fly a cleaner, ...

The Su-35 Flanker-E is Sukhoi’s 4.5-generation evolution of the Su-27, pairing AL-41F1S thrust-vectoring engines with ...

Modern thrust vectoring in turbofan and rocket nozzles has traditionally been performed using mechanical actuation. However, recent research has identified fluidic thrust vectoring as a promising ...

Important: The J-10 joins the Su-30, Su-35, Su-57, and F-22 as one of the few fighter jets to integrate a thrust-vectoring nozzle, but not all TVC systems are created equal. In a surprise move, the ...

Flying a thrust-vectoring rocket can be a challenge, and even more so if you stack multiple stages and a minimalist flight computer on top of it all. But [Joe Barnard] is not one to shy away from such ...