Development of Innovative Mechanical Flexible Solar Array Architecture

Development of Innovative Mechanical Flexible Solar Array Architecture

Flexible solar array architecture is proposed instead of rigid one, for high power solar array used from space tug mission to GEO satellite one, but also for specific scientific mission. THALES ALENIA SPACE has developed with Centre National d’Etudes Spatiales (CNES) support, innovative mechanical f...

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Main Authors: Boulanger Bernard, Baudassé Yannick, Guinot François, D’abrigeon Laurent, Thibaudeau Mikaël, Heim Marina, Buffe Fabrice, Rapp Etienne
Format: Article
Language:English
Published: EDP Sciences 2017-01-01
Series:E3S Web of Conferences
Online Access:https://doi.org/10.1051/e3sconf/20171601005
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spelling doaj-87aff94c9cf94cde804ccbfe155e266a2021-03-02T03:32:16ZengEDP SciencesE3S Web of Conferences2267-12422017-01-01160100510.1051/e3sconf/20171601005e3sconf_espc2017_01005Development of Innovative Mechanical Flexible Solar Array ArchitectureBoulanger Bernard0Baudassé Yannick1Guinot François2D’abrigeon Laurent3Thibaudeau Mikaël4Heim Marina5Buffe Fabrice6Rapp Etienne7Thales Alenia Space FranceThales Alenia Space FranceThales Alenia Space FranceThales Alenia Space FranceThales Alenia Space FranceCNES FranceCNES FranceCNES FranceFlexible solar array architecture is proposed instead of rigid one, for high power solar array used from space tug mission to GEO satellite one, but also for specific scientific mission. THALES ALENIA SPACE has developed with Centre National d’Etudes Spatiales (CNES) support, innovative mechanical flexible solar array architecture, using 22 m long carbon tape-springs. The first part of the study was to design, predict, verify carbon tape-springs mechanical behaviour during deployment and coiling phases at room temperature. THALES ALENIA SPACE built mechanical flexible solar array mock-up full scale width / half scale length and performed deployment and rolling-up tests. The second part was to design, predict carbon tape-springs mechanical behaviour with large temperature range due to solar array missions. THALES ALENIA SPACE used again flexible solar array mock-up, performed deployment/coiling tests with innovative tape springs. This 11th ESPC paper describes results of these development activities and the THALES ALENIA SPACE forecast on this flexible solar array market.https://doi.org/10.1051/e3sconf/20171601005
collection DOAJ
language English
format Article
sources DOAJ
author Boulanger Bernard
Baudassé Yannick
Guinot François
D’abrigeon Laurent
Thibaudeau Mikaël
Heim Marina
Buffe Fabrice
Rapp Etienne
spellingShingle Boulanger Bernard
Baudassé Yannick
Guinot François
D’abrigeon Laurent
Thibaudeau Mikaël
Heim Marina
Buffe Fabrice
Rapp Etienne
Development of Innovative Mechanical Flexible Solar Array Architecture
E3S Web of Conferences
author_facet Boulanger Bernard
Baudassé Yannick
Guinot François
D’abrigeon Laurent
Thibaudeau Mikaël
Heim Marina
Buffe Fabrice
Rapp Etienne
author_sort Boulanger Bernard
title Development of Innovative Mechanical Flexible Solar Array Architecture
title_short Development of Innovative Mechanical Flexible Solar Array Architecture
title_full Development of Innovative Mechanical Flexible Solar Array Architecture
title_fullStr Development of Innovative Mechanical Flexible Solar Array Architecture
title_full_unstemmed Development of Innovative Mechanical Flexible Solar Array Architecture
title_sort development of innovative mechanical flexible solar array architecture
publisher EDP Sciences
series E3S Web of Conferences
issn 2267-1242
publishDate 2017-01-01
description Flexible solar array architecture is proposed instead of rigid one, for high power solar array used from space tug mission to GEO satellite one, but also for specific scientific mission. THALES ALENIA SPACE has developed with Centre National d’Etudes Spatiales (CNES) support, innovative mechanical flexible solar array architecture, using 22 m long carbon tape-springs. The first part of the study was to design, predict, verify carbon tape-springs mechanical behaviour during deployment and coiling phases at room temperature. THALES ALENIA SPACE built mechanical flexible solar array mock-up full scale width / half scale length and performed deployment and rolling-up tests. The second part was to design, predict carbon tape-springs mechanical behaviour with large temperature range due to solar array missions. THALES ALENIA SPACE used again flexible solar array mock-up, performed deployment/coiling tests with innovative tape springs. This 11th ESPC paper describes results of these development activities and the THALES ALENIA SPACE forecast on this flexible solar array market.
url https://doi.org/10.1051/e3sconf/20171601005
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