Aeroelastic control systems represent a critical intersection between aerodynamic theory and structural dynamics, addressing the complex interactions that give rise to flutter – a self-excited ...

As we envision the future of aviation, with 2050 as a pivotal milestone, a significant challenge emerges: reducing aircraft energy requirements by an ambitious 50%. This endeavor demands a ...

Boeing has completed aeroelastic flutter testing and ground effects testing with its first two 787 test aircraft. This clears the way for the formal US Federal Aviation Administration certification ...

Modern CFD simulations provide detailed insights. However, especially in the transonic regime, they face physical and modeling limitations. Nonlinear interactions between shock waves and blade ...

In mid-2025 the aviation world marked a milestone in aerodynamics and avionics interaction. While most headlines focus on new ...

Winglet manufacturer Aviation Partners has completed a test flight with a Hawker 800 featuring a new winglet installation that was tweaked to prevent aeroelastic flutter. The original Aviation ...

Upon his retirement as a non-routine flight operations captain from a fractional operator in 2015, Dr. Veillette had accumulated more than 20,000 hours of flight experience in 240 types of ...

ABSTRACT A mathematic rotating blade model is introduced in conjunction with periodic time-varying aerodynamic load, which is described by Beddoes-Leishman dynamic stall model. The consequent ...