Instructed by experts from Delft University of Technology

ü Learn about the fascinating interaction between aerodynamics, structures and control, their modeling challenges, and their impact on aircraft behavior.

ü All students will receive an AIAA Certificate of Completion at the end of the course

OVERVIEW

This course will provide a condensed introduction to aircraft aeroelasticity from fundamentals to application. Aeroelasticity studies the interaction between structural elasticity, structural dynamics, and steady/unsteady aerodynamics. The course will touch upon all relevant aspects of aeroelasticity ranging from the fundamentals of aeroelastic modeling and phenomena to larger-scale aeroelastic modeling of aircraft. Topics such as aerodynamic and structural models tailored towards aeroelastic calculations, interpolation methods to couple aerodynamics with structures, and aeroelastic control and nonlinearities are covered.

Aeroelasticity represents an integral discipline in aircraft design facilitating static and dynamic loads and aircraft aeroelastic stability assessment. With the efforts to make aviation more environmentally friendly, aeroelasticity is gaining importance in airframe structural optimization to make the aircraft as lightweight as possible. This renders more flexible aircraft and hence more susceptible to aeroelastic phenomena. In this context, aeroelasticity is employed in several fields such as flexible aircraft handling qualities assessment and control, maneuver and gust load alleviation, flutter suppression, and performance optimization.

The goal of this course is to provide you with an essential understanding of aeroelasticity and the basic tools to apply it, such that you can use this knowledge to model aeroelastic problems and interpret aeroelastic response and stability solutions. The course will not go into advanced detail but will provide you with an understanding of the important aspects of the aeroelasticity field.

(Course recorded live in Spring 2024)