Thrust-vectoring makes impossible maneuvers possible. The huge, powerful jets can perform extremely tight turns that ...

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 ...

Thrust vectoring—essentially redirecting the plane’s exhaust flow—allows modern fighters to quickly change direction, giving them an edge in close combat.

Post-stall maneuvering” gives a plane excellent maneuverability—but the equipment needed to boost it comes with tradeoffs, as all advanced aircraft features do.

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 ...

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 ...

A couple of weeks ago, an experienced Eurofighter Typhoon industry test pilot wrote to The Aviationist to respond to a Lockheed F-35 test pilot who, talking to Flight’s Dave Majumdar had claimed that ...

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 ...

The RC plane shown above is hovering in that position. And that’s about the least impressive thing it can do. This is the power of Collective Pitch Thrust Vectoring… on a plane. So what exactly is ...