Parametric Study of the Elementary Segment of an Antiprismatic Pop-Up Deployable Lattice Column

Parametric Study of the Elementary Segment of an Antiprismatic Pop-Up Deployable Lattice Column

In this article the primary segment of an antiprismatic pop-up mast is analyzed, that can be applied for largely flexible architectural designs, like deployable bridges or transportable look-out towers. This deployable column, consisting of rigid plates, rigid and elastic bars, is characterized by i...

Full description

Bibliographic Details
Main Authors: Friedman Noémi, Farkas György, Ibrahimbegovic Adnan
Format: Article
Language:English
Published: Sciendo 2014-12-01
Series:YBL Journal of Built Environment
Subjects:
deployable structure
antiprismatic structure
non-linear analysis
yoshimura pattern
instability analysis
Online Access:https://doi.org/10.1515/jbe-2014-0011
id doaj-715f3d35763c4d1ead26271b3c318f5e
record_format Article
spelling doaj-715f3d35763c4d1ead26271b3c318f5e2021-09-06T19:40:26ZengSciendoYBL Journal of Built Environment2064-25202014-12-0122658610.1515/jbe-2014-0011jbe-2014-0011Parametric Study of the Elementary Segment of an Antiprismatic Pop-Up Deployable Lattice ColumnFriedman Noémi0Farkas György1Ibrahimbegovic Adnan2Institut fur Wissenschaftliches Rechnen, Technische Universitat Braunschweig, GermanyDept. of Structural Engineering, Faculty of Civil Engineering, Budapest Univ. of Technology and EconomicsSorbonne Universites/UT Compiegne, Centre de recherches Royallie, Compiegne, FranceIn this article the primary segment of an antiprismatic pop-up mast is analyzed, that can be applied for largely flexible architectural designs, like deployable bridges or transportable look-out towers. This deployable column, consisting of rigid plates, rigid and elastic bars, is characterized by its selfdeploying behavior due to the energy accumulated from lengthening the elastic bars during packing. The main goal of this paper is to prepare the analysis of the complex structure by a herein detailed investigation of the behavior of one, basic element of the deployable mast. After the analytical examination of the general behavior of the basic segment a geometrically nonlinear finite element formulation is used to trace the force-displacement diagram. Besides the parametric study, approximations of main mechanical parameters are herein given for facilitating preliminary design of such deployable structures.https://doi.org/10.1515/jbe-2014-0011deployable structureantiprismatic structurenon-linear analysisyoshimura patterninstability analysis
collection DOAJ
language English
format Article
sources DOAJ
author Friedman Noémi
Farkas György
Ibrahimbegovic Adnan
spellingShingle Friedman Noémi
Farkas György
Ibrahimbegovic Adnan
Parametric Study of the Elementary Segment of an Antiprismatic Pop-Up Deployable Lattice Column
YBL Journal of Built Environment
deployable structure
antiprismatic structure
non-linear analysis
yoshimura pattern
instability analysis
author_facet Friedman Noémi
Farkas György
Ibrahimbegovic Adnan
author_sort Friedman Noémi
title Parametric Study of the Elementary Segment of an Antiprismatic Pop-Up Deployable Lattice Column
title_short Parametric Study of the Elementary Segment of an Antiprismatic Pop-Up Deployable Lattice Column
title_full Parametric Study of the Elementary Segment of an Antiprismatic Pop-Up Deployable Lattice Column
title_fullStr Parametric Study of the Elementary Segment of an Antiprismatic Pop-Up Deployable Lattice Column
title_full_unstemmed Parametric Study of the Elementary Segment of an Antiprismatic Pop-Up Deployable Lattice Column
title_sort parametric study of the elementary segment of an antiprismatic pop-up deployable lattice column
publisher Sciendo
series YBL Journal of Built Environment
issn 2064-2520
publishDate 2014-12-01
description In this article the primary segment of an antiprismatic pop-up mast is analyzed, that can be applied for largely flexible architectural designs, like deployable bridges or transportable look-out towers. This deployable column, consisting of rigid plates, rigid and elastic bars, is characterized by its selfdeploying behavior due to the energy accumulated from lengthening the elastic bars during packing. The main goal of this paper is to prepare the analysis of the complex structure by a herein detailed investigation of the behavior of one, basic element of the deployable mast. After the analytical examination of the general behavior of the basic segment a geometrically nonlinear finite element formulation is used to trace the force-displacement diagram. Besides the parametric study, approximations of main mechanical parameters are herein given for facilitating preliminary design of such deployable structures.
topic deployable structure
antiprismatic structure
non-linear analysis
yoshimura pattern
instability analysis
url https://doi.org/10.1515/jbe-2014-0011
work_keys_str_mv AT friedmannoemi parametricstudyoftheelementarysegmentofanantiprismaticpopupdeployablelatticecolumn
AT farkasgyorgy parametricstudyoftheelementarysegmentofanantiprismaticpopupdeployablelatticecolumn
AT ibrahimbegovicadnan parametricstudyoftheelementarysegmentofanantiprismaticpopupdeployablelatticecolumn
_version_ 1717768487400636416

Similar Items