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Publications by Fidel Khouli
Modelling and Attenuation Feasibility of the Aeroelastic Response of Active Helicopter Rotor Systems During the Engagement/Disengagement Phase of Maritime Operation
Related publications
Modelling and Stability Analysis of a Composite Helicopter Rotor Blade With Integrated Active Fibres
Feasibility Study and Design of an Actively Controlled Tip for Helicopter Rotor Blades
Fast Modelling and Simulation of the Dynamic Behaviour of a Wet Multidisc Clutch During the Engagement Phase
MATEC Web of Conferences
Materials Science
Engineering
Chemistry
A Full-Scale Experimental Feasibility Study of Helicopter Rotor Isolation Using the Dynamic Antiresonant Vibration Isolator
Aeroelastic Response Characteristics of a Hovering Rotor Due to Harmonic Blade Pitch Variation.
Journal of the Japan Society for Aeronautical and Space Sciences
Aeroelastic and Aeroacoustic Modelling of Rotorcraft
Aeroelastic Rotor Stability Analysis
Aerodynamic/Acoustic Analysis for Main Rotor and Tail Rotor of Helicopter
Transactions of the Japan Society for Aeronautical and Space Sciences
Space
Planetary Science
Aerospace Engineering
Approximations of Aeroelastic Steady State Response of Teetered Rotor Blades. (Including Teeter Rotation Argle Alone).
Nippon Kikai Gakkai Ronbunshu, C Hen/Transactions of the Japan Society of Mechanical Engineers, Part C
Mechanics of Materials
Industrial
Mechanical Engineering
Manufacturing Engineering
