Smart Blade Flutter Alleviation

Moosavi, Reza (2023) Smart Blade Flutter Alleviation. ISSN 0177-0667

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In this paper, the effect of using a piezoelectric material has been shown on postponing the flutter phenomenon on a regular blade. System response of a smart blade with only flap-wise and edgewise plunge DOF shows that the oscillations of the smart blade can be effectively decayed in a very short time using efficient piezopatches in the flap-wise and edgewise plunge DOF. Furthermore, in a smart blade with four DOF, it has been indicated having piezopatches in flap-wise and edgewise plunge DOF can defer the flutter speed 81.41% which is a noticeable increase in the flutter speed. Finally, by adding a piezopatch to the pitch DOF to a smart blade, it is possible to postpone the flutter speed 155% which is a very considerable increase.

Item Type	Article
Uncontrolled Keywords	Flutter; Piezoelectric material; Smart blade
Subjects	Computer Science(all) > Software Engineering(all) > General Engineering Computer Science(all) > Computer Science Applications Mathematics(all) > Modelling and Simulation
Divisions	?? sbu_specs ?? ?? dep_et ?? ?? rg_mat_sci ?? ?? rc_er ??
Date Deposited	18 Nov 2024 12:21
Last Modified	18 Nov 2024 12:21

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