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Smart morphing and sensing for aeron...

Braza, Marianna.

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Smart morphing and sensing for aeronautical configurations = prototypes, experimental and numerical findings from the H2020 N° 723402 SMS EU project /

Record Type:	Electronic resources : Monograph/item
Title/Author:	Smart morphing and sensing for aeronautical configurations/ edited by Marianna Braza ... [et al.].
Reminder of title:	prototypes, experimental and numerical findings from the H2020 N° 723402 SMS EU project /
other author:	Braza, Marianna.
Published:	Cham :Springer International Publishing : : 2023.,
Description:	xvi, 275 p. :ill., digital ;24 cm.
[NT 15003449]:	Prototypes and electroactive actuators design -- Subsonic regime sRS wing -- Transonic regime tRS wing -- Sensing -- Control law definition -- Experimental study of the aerodynamic performance increase Subsonic regime -- Transonic regime -- Prototype and actuator design -- Sensing multipoint system through Bragg grating -- Control law definition -- Experimental study - characterization of the LS in take-off conditions -- Advanced CFD -- Structural mechanics involving electroactive properties -- Numerical results on the sRS prototype: take-off conditions -- Numerical results on the tRS prototype: cruise conditions -- Numerical results on the LS prototype: take-off and landing -- Sensitivity analysis through adjoined-based MDO -- Numerical results on the whole aircraft (morphing A320) -- Synthesis on the numerical simulations major outcomes -- sRS control for aerodynamic performance increase -- tRS final experimental evaluation in cruise -- LS final experimental evaluation in take-off and landing -- Synthesis on the final demonstrators.
Contained By:	Springer Nature eBook
Subject:	Airplanes - Wings -
Online resource:	https://doi.org/10.1007/978-3-031-22580-2
ISBN:	9783031225802

Smart morphing and sensing for aeronautical configurations = prototypes, experimental and numerical findings from the H2020 N° 723402 SMS EU project /
Smart morphing and sensing for aeronautical configurationsprototypes, experimental and numerical findings from the H2020 N° 723402 SMS EU project /[electronic resource] :edited by Marianna Braza ... [et al.]. - Cham :Springer International Publishing :2023. - xvi, 275 p. :ill., digital ;24 cm. - Notes on numerical fluid mechanics and multidisciplinary design (NNFM),v. 1531860-0824 ;. - Notes on numerical fluid mechanics and multidisciplinary design (NNFM) ;v. 153..

Prototypes and electroactive actuators design -- Subsonic regime sRS wing -- Transonic regime tRS wing -- Sensing -- Control law definition -- Experimental study of the aerodynamic performance increase Subsonic regime -- Transonic regime -- Prototype and actuator design -- Sensing multipoint system through Bragg grating -- Control law definition -- Experimental study - characterization of the LS in take-off conditions -- Advanced CFD -- Structural mechanics involving electroactive properties -- Numerical results on the sRS prototype: take-off conditions -- Numerical results on the tRS prototype: cruise conditions -- Numerical results on the LS prototype: take-off and landing -- Sensitivity analysis through adjoined-based MDO -- Numerical results on the whole aircraft (morphing A320) -- Synthesis on the numerical simulations major outcomes -- sRS control for aerodynamic performance increase -- tRS final experimental evaluation in cruise -- LS final experimental evaluation in take-off and landing -- Synthesis on the final demonstrators.

This book reports on advanced strategies to design, modeling and testing morphing wings for aeronautical applications. Covering the major outcomes of the multidisciplinary project "Smart Morphing & Sensing" (H2020 N° 723402 SMS), funded by the European Union between 2017 and 2020, it presents a complete set of theories and methods that have been used and developed to integrate novel electroactive actuators and sensors in wings, for the purpose of increasing their aerodynamic efficiency and attenuate vibrations and noise. Topics include: integrated aeroelastic design of morphing wings using high-fidelity computational fluid dynamics and structural mechanics, distributed sensing using a new generation of high-fidelity fiber optics sensors, and controller design by appropriate flight control commands. Further, the book reports on advanced experimental techniques to validate novel actuation and sensing systems on the built prototypes via wind tunnel tests at subsonic (take-off and landing) and transonic (cruise) speeds. All in all, this volume provides readers with extensive and timely information on research and developments of bioinspired aircraft wings.

ISBN: 9783031225802

Standard No.: 10.1007/978-3-031-22580-2doiSubjects--Topical Terms:

913287
Airplanes
--Wings

LC Class. No.: TL672 / .S63 2023

Dewey Class. No.: 629.13432

Smart morphing and sensing for aeronautical configurations = prototypes, experimental and numerical findings from the H2020 N° 723402 SMS EU project /
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520 $a This book reports on advanced strategies to design, modeling and testing morphing wings for aeronautical applications. Covering the major outcomes of the multidisciplinary project "Smart Morphing & Sensing" (H2020 N° 723402 SMS), funded by the European Union between 2017 and 2020, it presents a complete set of theories and methods that have been used and developed to integrate novel electroactive actuators and sensors in wings, for the purpose of increasing their aerodynamic efficiency and attenuate vibrations and noise. Topics include: integrated aeroelastic design of morphing wings using high-fidelity computational fluid dynamics and structural mechanics, distributed sensing using a new generation of high-fidelity fiber optics sensors, and controller design by appropriate flight control commands. Further, the book reports on advanced experimental techniques to validate novel actuation and sensing systems on the built prototypes via wind tunnel tests at subsonic (take-off and landing) and transonic (cruise) speeds. All in all, this volume provides readers with extensive and timely information on research and developments of bioinspired aircraft wings.
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650 2 4 $a Aerospace Technology and Astronautics. $3 928116
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