We will continue with our Seminar Series on December 14th, 2023.
On site: 3.S1.08 (Biblioteca Rey Pastor)
For the next event in the Aerospace PhD Seminar Series, we will have the pleasure of hosting Dr. Gabriele Dessena, a visiting professor at UC3M.
The event will take place in room 3.S1.08 (Biblioteca Rey Pastor) on Thursday, December 14th, at 1pm and will be streamed (Online).
Gabriele Dessena was awarded his Master of Engineering in Aeronautics and Astronautics from the University of Southampton, UK, in 2019, where through individual and group projects he focused on structural, computational and aircraft design. The same year Gabriele joined Cranfield University on an EPSRC-funded PhD studentship titled Non-linear model reduction for flexible structures. His doctorate work focused on the implementation and application of system identification and finite element model updating techniques for high aspect ratio wings. In December 2022, Gabriele joined ENAC (Italian civil aviation authority) as a trainee airworthiness inspector, before defending his thesis, titled Identification of Flexible Structures Dynamics, in March 2023 and receiving his PhD shortly after. Gabriele joined the Department of Aerospace Engineering at the Universidad Carlos III de Madrid in September 2023.
“Identification of Flexible Structures Dynamics”
Abstract:
The pursuit of aerodynamic efficiency and the advances in materials technology, particularly in composite material, has contributed to shifting the paradigm of wing design to high aspect ratio wings. Increasing the span, for decreasing drag, and using composite lightweight materials make the new wing very flexible and prone to non-linear dynamic behaviour. Thus, increasing challenges arise for the identification and modelling of the wing. It is fundamental to expand the knowledge of the behaviour of these structures through the identification and modelling of sample flexible wing models, with the possibility for the expansion of design and analysis tools.
In this seminar, a series of methods and approaches are presented for the identification and modelling of flexible wings. First, a system identification technique in the frequency domain, the Loewner Framework, is applied for modal parameters extraction in mechanical systems for structural health monitoring. Then, a thorough, linear and non-linear, vibration test campaign on a flexible wing model for the detection, identification and quantification of non-linearities is presented. Finally, a meta-model technique based on Kriging, the refined Efficient Global Optimisation, is proposed for finite element model updating and damage detection.
The results presented show that a deeper knowledge of the structural dynamic behaviour of flexible structures can be obtained with a mix of novel computationally efficient techniques and state-of-the-art experimental and that these new techniques can pave the way to the full exploitation of the dynamics of flexible structures.
The seminars will begin at 1pm and will take place in 3.S1.08 (Biblioteca Rey Pastor) EPS UC3M Leganés.
No previous registration is required.
PhD in Aerospace Engineering UC3M 