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+ | ==Abstract== | ||
+ | Jürgen Hennicke [1] challenged the designers of structural membranes stating that "Structural membranes, if not designed as such, require an imposing steel structure". Responding to this challenge, a comparative study has been launched to assess the impact on the design efficiency of considering or not the structural principles of membranes, that are: only tension, funicularity, curvature and pre-stress. In a previous paper (J.Llorens, 2023 [2]) the general approach of the research and the first results have been presented. This paper shows more cases to complete the most usual repertoire. | ||
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+ | == Full Paper == | ||
+ | <pdf>Media:Draft_Sanchez Pinedo_246806866design1.pdf</pdf> |
Jürgen Hennicke [1] challenged the designers of structural membranes stating that "Structural membranes, if not designed as such, require an imposing steel structure". Responding to this challenge, a comparative study has been launched to assess the impact on the design efficiency of considering or not the structural principles of membranes, that are: only tension, funicularity, curvature and pre-stress. In a previous paper (J.Llorens, 2023 [2]) the general approach of the research and the first results have been presented. This paper shows more cases to complete the most usual repertoire.
Published on 18/10/23
Submitted on 18/10/23
Volume Design Methods, 2023
DOI: 10.23967/c.membranes.2023.060
Licence: CC BY-NC-SA license
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