Publications

Principaux articles…

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— William Bettini, Jérôme Quirant, Julien Averseng, Bernard Maurin, Self-Deployable Geometries for Space Applications, Journal of Aerospace Engineering, American Society of Civil Engineers, 2019, 32 (1).

— Sébastien Morterolle, Bernard Maurin, Jean-François Dubé, Julien Averseng, Jérôme Quirant. Modal behavior of a new large reflector conceptual design. Aerospace Science and Technology, Elsevier, 2015, 42, pp.74-79.

— Sebastien Morterolle, Bernard Maurin, Jérôme Quirant, Christian Dupuy. Numerical form-finding of geotensoid tension truss for mesh reflector. Acta Astronautica, Elsevier, 2012, 76, pp.154-163.

— Anh-Dung Nguyen, Jérôme Quirant, Franck Cevaer, Jean-François Dubé. Study and construction of a pentagon-based tensegrity ring. European Journal of Environmental and Civil Engineering, Ed. Lavoisier, 2011, 15 (06), pp.849-868.

— Jérôme Quirant, Franck Cevaer, Sebastien Morterolle, Bernard Maurin, Jean-François Dubé. Conceptual design and analysis of a deployable structure with flexible joints. Journal of Aerospace Engineering, American Society of Civil Engineers, 2011, 24 (03), pp.277-284.

— Jérôme Quirant. Selfstressed systems comprising elements with unilateral rigidity: selfstress states, mechanisms and tension setting. International Journal of Space Structures, Multi-Science Publishing, 2007, 22 (4), pp 203-214.

— Jérôme Quirant, Nadjib Kazi-Aoual, René Motro. Designing Tensegrity Systems : The case of a double layer grid. Engineering Structures, Elsevier, 2003, 2003 (n°25), pp1121-1130.

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Et de façon plus exhaustive…

— Détail des publications sur Hal  (Archives Ouvertes)

— Liste par Google Scholar

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55 documents

  • René Motro, Jerome Quirant, Anh-Dung Nguyen, Bernard Maurin. Foldable tensegrity rings: from conceptual design to physical and numerical models. 9th APCS Congress, 2009, Nagoya, Japan. pp.CD-Rom. ⟨hal-00559699⟩
  • Jerome Quirant. 11 Septembre 2001 : Les conclusions scientifiques. 2009. ⟨hal-00560334⟩
  • Jerome Quirant. Effondrement des tours du WTC : les conclusions scientifiques.... 27ème Rencontres AUGC, 2009, Saint Malo, France. pp.4-21. ⟨hal-00559684⟩
  • Birgitta Dresp, Jérôme Quirant. Design principles and use of compression structures with tensile integrity. Recent Patents on Engineering, 2008, 2 (3), pp.ISSN : 1872-2121. ⟨10.2174/187221208786306298⟩. ⟨hal-00858712⟩
  • Anh-Dung Nguyen, Franck Cevaer, Jean-François Dubé, Jérôme Quirant. Construction and deployment of tensegrity ring. IASS Symposium 2007, 2007, Venise, Italy. pp.Sur CDROM. ⟨hal-00559784⟩
  • Jérôme Quirant. Selfstressed systems comprising elements with unilateral rigidity: selfstress states, mechanisms and tension setting. International Journal of Space Structures, 2007, 22 (4), pp 203-214. ⟨10.1260/026635107783133807⟩. ⟨hal-00329233⟩
  • X. Chen, Jerome Quirant, Franck Cevaer. Etude et modélisation du système ARTOFLEX. 24èmes Rencontres de Génie Civil "Construire : les nouveaux défis", 2006, La Grande Motte, France. p.76-77 résumé. Articles sur CDrom. ⟨hal-00559839⟩
  • Jérôme Quirant. Review of Bing, Bing Wang's Book : Free-standing Tension Structures : from tensegrity systems to cable-strut systems. Journal of the International Association for Shell and Spatial Structures, 2005, 46 (1), pp 67-68. ⟨hal-00528742⟩
  • Jérôme Quirant. Towards tensegrity systems design. Novel approaches in civil engineering, Springer-Verlag, pp 339-340, 2004. ⟨hal-00528756⟩
  • Jérôme Quirant, Nadjib M. Kazi-Aoual, Roland Laporte. Tensegrity systems: the application of linear programmation in search of compatible selfstress states. Journal of the International Association for Shell and Spatial Structures, 2003, 44, pp 33-50. ⟨hal-00329216⟩

Documents récupérés de l'archive ouverte HAL logo