Structural optimization of concrete plane frames considering the static and dynamic wind effect
abstract: This study has as its main purpose the structural optimization of plane frames in concrete, having as the objective function the minimum total weight of the structure. For this purpose, external actions, considered within the optimization process, are intended to represent accurately all effects observed in a real situation. In such manner, loads are dependent on the cross-section obtained in each optimization step, as well as the static and dynamic effects of the wind are considered for a more realistic representation. The optimization method adopted is the Teaching-Learning Based Optimization (TLBO). Thus, all proper design constraints were considered in accordance with Brazilian standards for concrete structures. From the results obtained in both situations (static and dynamic effects), it is possible to notice the difference regarding external actions, in which higher loads were obtained in higher floors, using the simplified dynamic model proposed in standards. Regarding the analysis of the structure optimization, the weight was higher when the applied forces were the result of the dynamic wind model, in which the larger cross-sections were found at the bottom of the structure. Even though this may be a well-known issue, the present work shows a quantitative study in which both effects are discussed in detail, as well as it features a methodology, based on a novel optimization method and with a straightforward implementation, that could be adapted for the analysis of more complex structures.
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| Language: | English |
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IBRACON - Instituto Brasileiro do Concreto
2022
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oai:scielo:S1983-419520220001002052021-07-26Structural optimization of concrete plane frames considering the static and dynamic wind effectCardoso,Emanuely UgulinoRodríguez,Rene QuispeMachado,Lucas QueirozKunz,Felipe FaustinoSantos,Patrick dos Santos eQuispe,Alana Paula da Costa finite element method teaching-learning-based optimization structural weight Brazilian standards abstract: This study has as its main purpose the structural optimization of plane frames in concrete, having as the objective function the minimum total weight of the structure. For this purpose, external actions, considered within the optimization process, are intended to represent accurately all effects observed in a real situation. In such manner, loads are dependent on the cross-section obtained in each optimization step, as well as the static and dynamic effects of the wind are considered for a more realistic representation. The optimization method adopted is the Teaching-Learning Based Optimization (TLBO). Thus, all proper design constraints were considered in accordance with Brazilian standards for concrete structures. From the results obtained in both situations (static and dynamic effects), it is possible to notice the difference regarding external actions, in which higher loads were obtained in higher floors, using the simplified dynamic model proposed in standards. Regarding the analysis of the structure optimization, the weight was higher when the applied forces were the result of the dynamic wind model, in which the larger cross-sections were found at the bottom of the structure. Even though this may be a well-known issue, the present work shows a quantitative study in which both effects are discussed in detail, as well as it features a methodology, based on a novel optimization method and with a straightforward implementation, that could be adapted for the analysis of more complex structures.info:eu-repo/semantics/openAccessIBRACON - Instituto Brasileiro do ConcretoRevista IBRACON de Estruturas e Materiais v.15 n.1 20222022-01-01info:eu-repo/semantics/articletext/htmlhttp://old.scielo.br/scielo.php?script=sci_arttext&pid=S1983-41952022000100205en10.1590/s1983-41952022000100009 |
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English |
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| author |
Cardoso,Emanuely Ugulino Rodríguez,Rene Quispe Machado,Lucas Queiroz Kunz,Felipe Faustino Santos,Patrick dos Santos e Quispe,Alana Paula da Costa |
| spellingShingle |
Cardoso,Emanuely Ugulino Rodríguez,Rene Quispe Machado,Lucas Queiroz Kunz,Felipe Faustino Santos,Patrick dos Santos e Quispe,Alana Paula da Costa Structural optimization of concrete plane frames considering the static and dynamic wind effect |
| author_facet |
Cardoso,Emanuely Ugulino Rodríguez,Rene Quispe Machado,Lucas Queiroz Kunz,Felipe Faustino Santos,Patrick dos Santos e Quispe,Alana Paula da Costa |
| author_sort |
Cardoso,Emanuely Ugulino |
| title |
Structural optimization of concrete plane frames considering the static and dynamic wind effect |
| title_short |
Structural optimization of concrete plane frames considering the static and dynamic wind effect |
| title_full |
Structural optimization of concrete plane frames considering the static and dynamic wind effect |
| title_fullStr |
Structural optimization of concrete plane frames considering the static and dynamic wind effect |
| title_full_unstemmed |
Structural optimization of concrete plane frames considering the static and dynamic wind effect |
| title_sort |
structural optimization of concrete plane frames considering the static and dynamic wind effect |
| description |
abstract: This study has as its main purpose the structural optimization of plane frames in concrete, having as the objective function the minimum total weight of the structure. For this purpose, external actions, considered within the optimization process, are intended to represent accurately all effects observed in a real situation. In such manner, loads are dependent on the cross-section obtained in each optimization step, as well as the static and dynamic effects of the wind are considered for a more realistic representation. The optimization method adopted is the Teaching-Learning Based Optimization (TLBO). Thus, all proper design constraints were considered in accordance with Brazilian standards for concrete structures. From the results obtained in both situations (static and dynamic effects), it is possible to notice the difference regarding external actions, in which higher loads were obtained in higher floors, using the simplified dynamic model proposed in standards. Regarding the analysis of the structure optimization, the weight was higher when the applied forces were the result of the dynamic wind model, in which the larger cross-sections were found at the bottom of the structure. Even though this may be a well-known issue, the present work shows a quantitative study in which both effects are discussed in detail, as well as it features a methodology, based on a novel optimization method and with a straightforward implementation, that could be adapted for the analysis of more complex structures. |
| publisher |
IBRACON - Instituto Brasileiro do Concreto |
| publishDate |
2022 |
| url |
http://old.scielo.br/scielo.php?script=sci_arttext&pid=S1983-41952022000100205 |
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