Preliminary design of aeroelastically tailored wing box structures with bend-twist coupling

Preliminary design of aeroelastically tailored wing box structures with bend-twist coupling

Nowadays the composite materials have become the materials of choice to be used in the new aerospace structures that need to be not only larger and larger in size but also to be better performing in terms of aeroelastic responses inherent to thin-walled, slender structures. The advantage of composit...

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Main Authors: Mihaila-Andres Mihai, Rosu Paul-Virgil, Larco Ciprian, Demsa Maria, Constantin Lucian, Pahonie Radu
Format: Article
Language:English
Published: EDP Sciences 2019-01-01
Series:ITM Web of Conferences
Online Access:https://www.itm-conferences.org/articles/itmconf/pdf/2019/01/itmconf_amcse18_02010.pdf
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spelling doaj-cda207dbd51d42faa268463cd59a62932021-02-02T01:38:34ZengEDP SciencesITM Web of Conferences2271-20972019-01-01240201010.1051/itmconf/20192402010itmconf_amcse18_02010Preliminary design of aeroelastically tailored wing box structures with bend-twist couplingMihaila-Andres Mihai0Rosu Paul-Virgil1Larco Ciprian2Demsa Maria3Constantin Lucian4Pahonie Radu5Military Technical Academy “Ferdinand I”, Aircraft Integrated Systems and Mechanics DepartmentMilitary Technical Academy “Ferdinand I”, Aircraft Integrated Systems and Mechanics DepartmentMilitary Technical Academy “Ferdinand I”, Aircraft Integrated Systems and Mechanics DepartmentMilitary Technical Academy “Ferdinand I”, Aircraft Integrated Systems and Mechanics DepartmentMilitary Technical Academy “Ferdinand I”, Aircraft Integrated Systems and Mechanics DepartmentMilitary Technical Academy “Ferdinand I”, Aircraft Integrated Systems and Mechanics DepartmentNowadays the composite materials have become the materials of choice to be used in the new aerospace structures that need to be not only larger and larger in size but also to be better performing in terms of aeroelastic responses inherent to thin-walled, slender structures. The advantage of composite materials airframes stems from their low structural weight which determines lower fuel consumption while preserving at the same time the airworthiness of the designed aircraft. But more important than the fuel consumption, the composite materials allow for the optimal tailoring of its layers in terms of specific design objectives. The paper presents such an aeroelastically tailored load carrying wing model which can passively control specific aeroelastic effects. The article focuses on the bend-twist coupling of the structural response to aerodynamic forces and on the parameter estimation/model updating techniques used to characterize the finite element model of the composite wing. Results are compared and validated with analytical, numerical and experimental data available in published literature.https://www.itm-conferences.org/articles/itmconf/pdf/2019/01/itmconf_amcse18_02010.pdf
collection DOAJ
language English
format Article
sources DOAJ
author Mihaila-Andres Mihai
Rosu Paul-Virgil
Larco Ciprian
Demsa Maria
Constantin Lucian
Pahonie Radu
spellingShingle Mihaila-Andres Mihai
Rosu Paul-Virgil
Larco Ciprian
Demsa Maria
Constantin Lucian
Pahonie Radu
Preliminary design of aeroelastically tailored wing box structures with bend-twist coupling
ITM Web of Conferences
author_facet Mihaila-Andres Mihai
Rosu Paul-Virgil
Larco Ciprian
Demsa Maria
Constantin Lucian
Pahonie Radu
author_sort Mihaila-Andres Mihai
title Preliminary design of aeroelastically tailored wing box structures with bend-twist coupling
title_short Preliminary design of aeroelastically tailored wing box structures with bend-twist coupling
title_full Preliminary design of aeroelastically tailored wing box structures with bend-twist coupling
title_fullStr Preliminary design of aeroelastically tailored wing box structures with bend-twist coupling
title_full_unstemmed Preliminary design of aeroelastically tailored wing box structures with bend-twist coupling
title_sort preliminary design of aeroelastically tailored wing box structures with bend-twist coupling
publisher EDP Sciences
series ITM Web of Conferences
issn 2271-2097
publishDate 2019-01-01
description Nowadays the composite materials have become the materials of choice to be used in the new aerospace structures that need to be not only larger and larger in size but also to be better performing in terms of aeroelastic responses inherent to thin-walled, slender structures. The advantage of composite materials airframes stems from their low structural weight which determines lower fuel consumption while preserving at the same time the airworthiness of the designed aircraft. But more important than the fuel consumption, the composite materials allow for the optimal tailoring of its layers in terms of specific design objectives. The paper presents such an aeroelastically tailored load carrying wing model which can passively control specific aeroelastic effects. The article focuses on the bend-twist coupling of the structural response to aerodynamic forces and on the parameter estimation/model updating techniques used to characterize the finite element model of the composite wing. Results are compared and validated with analytical, numerical and experimental data available in published literature.
url https://www.itm-conferences.org/articles/itmconf/pdf/2019/01/itmconf_amcse18_02010.pdf
work_keys_str_mv AT mihailaandresmihai preliminarydesignofaeroelasticallytailoredwingboxstructureswithbendtwistcoupling
AT rosupaulvirgil preliminarydesignofaeroelasticallytailoredwingboxstructureswithbendtwistcoupling
AT larcociprian preliminarydesignofaeroelasticallytailoredwingboxstructureswithbendtwistcoupling
AT demsamaria preliminarydesignofaeroelasticallytailoredwingboxstructureswithbendtwistcoupling
AT constantinlucian preliminarydesignofaeroelasticallytailoredwingboxstructureswithbendtwistcoupling
AT pahonieradu preliminarydesignofaeroelasticallytailoredwingboxstructureswithbendtwistcoupling
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