The adequacy of the separation gap between the adjacent structural frames considering the effects of structure-soil-structure- interaction and using particle swarm optimization algorithm
Since, generally, in high population areas and large cities for maximum use of land, buildings are constructed without distances or with insufficient distance, thus, during severe earthquakes, due to unbalanced vibration of the structure Adjacent bodies (which do not have enough distance from one an...
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Iranian Society of Structrual Engineering (ISSE)
2021
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oai:doaj.org-article:3636a37b0d9c41f19cf0001a5989f1682021-11-08T15:54:39ZThe adequacy of the separation gap between the adjacent structural frames considering the effects of structure-soil-structure- interaction and using particle swarm optimization algorithm2476-39772538-261610.22065/jsce.2019.157919.1713https://doaj.org/article/3636a37b0d9c41f19cf0001a5989f1682021-05-01T00:00:00Zhttps://www.jsce.ir/article_89932_45bd72dafcac338c11d0808d537c996d.pdfhttps://doaj.org/toc/2476-3977https://doaj.org/toc/2538-2616Since, generally, in high population areas and large cities for maximum use of land, buildings are constructed without distances or with insufficient distance, thus, during severe earthquakes, due to unbalanced vibration of the structure Adjacent bodies (which do not have enough distance from one another) and without considering the effects of the soil, the impact phenomenon occurs. The most natural way to avoid impact is to provide sufficient distance between adjacent structures. In the present article, the proposed distance between the standard 2800 Iran between two adjacent structures is also evaluated for the impact of impact phenomena using time histories analysis of structural-soil-structural models. To this end, evaluation of seismic behavior of structures 3, 6, and 12 of 3rd and 5th craters on type I and III soils was performed and for analysis of 6 earthquake records with different earthquake hazard levels Has been used. These structures were modeled in the OpenSees software. Then, to obtain an optimum distance between the structures, the PSO algorithm was used, the code of this algorithm was written in MATLAB software and connected with the OpenSees software. After reaching the convergence condition, the optimum interval was presented and compared with the proposed interval in the standard 2800. The results indicate that the proposed distance in standard 2800 for high-risk earthquakes is not adequate and is not suitable and, given the soil conditions, structures and earthquakes, there is a possibility of collision.Saeideh Amini-MoghaddamMohammad Iman KhodakaramiIranian Society of Structrual Engineering (ISSE)articlestructure-soil-structure-interaction (sssi)separation gap between two adjacent structuretime history analysisparticle swarm optimization (pso)special moment resistance frameBridge engineeringTG1-470Building constructionTH1-9745FAJournal of Structural and Construction Engineering, Vol 8, Iss 3, Pp 154-168 (2021) |
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DOAJ |
| collection |
DOAJ |
| language |
FA |
| topic |
structure-soil-structure-interaction (sssi) separation gap between two adjacent structure time history analysis particle swarm optimization (pso) special moment resistance frame Bridge engineering TG1-470 Building construction TH1-9745 |
| spellingShingle |
structure-soil-structure-interaction (sssi) separation gap between two adjacent structure time history analysis particle swarm optimization (pso) special moment resistance frame Bridge engineering TG1-470 Building construction TH1-9745 Saeideh Amini-Moghaddam Mohammad Iman Khodakarami The adequacy of the separation gap between the adjacent structural frames considering the effects of structure-soil-structure- interaction and using particle swarm optimization algorithm |
| description |
Since, generally, in high population areas and large cities for maximum use of land, buildings are constructed without distances or with insufficient distance, thus, during severe earthquakes, due to unbalanced vibration of the structure Adjacent bodies (which do not have enough distance from one another) and without considering the effects of the soil, the impact phenomenon occurs. The most natural way to avoid impact is to provide sufficient distance between adjacent structures. In the present article, the proposed distance between the standard 2800 Iran between two adjacent structures is also evaluated for the impact of impact phenomena using time histories analysis of structural-soil-structural models. To this end, evaluation of seismic behavior of structures 3, 6, and 12 of 3rd and 5th craters on type I and III soils was performed and for analysis of 6 earthquake records with different earthquake hazard levels Has been used. These structures were modeled in the OpenSees software. Then, to obtain an optimum distance between the structures, the PSO algorithm was used, the code of this algorithm was written in MATLAB software and connected with the OpenSees software. After reaching the convergence condition, the optimum interval was presented and compared with the proposed interval in the standard 2800. The results indicate that the proposed distance in standard 2800 for high-risk earthquakes is not adequate and is not suitable and, given the soil conditions, structures and earthquakes, there is a possibility of collision. |
| format |
article |
| author |
Saeideh Amini-Moghaddam Mohammad Iman Khodakarami |
| author_facet |
Saeideh Amini-Moghaddam Mohammad Iman Khodakarami |
| author_sort |
Saeideh Amini-Moghaddam |
| title |
The adequacy of the separation gap between the adjacent structural frames considering the effects of structure-soil-structure- interaction and using particle swarm optimization algorithm |
| title_short |
The adequacy of the separation gap between the adjacent structural frames considering the effects of structure-soil-structure- interaction and using particle swarm optimization algorithm |
| title_full |
The adequacy of the separation gap between the adjacent structural frames considering the effects of structure-soil-structure- interaction and using particle swarm optimization algorithm |
| title_fullStr |
The adequacy of the separation gap between the adjacent structural frames considering the effects of structure-soil-structure- interaction and using particle swarm optimization algorithm |
| title_full_unstemmed |
The adequacy of the separation gap between the adjacent structural frames considering the effects of structure-soil-structure- interaction and using particle swarm optimization algorithm |
| title_sort |
adequacy of the separation gap between the adjacent structural frames considering the effects of structure-soil-structure- interaction and using particle swarm optimization algorithm |
| publisher |
Iranian Society of Structrual Engineering (ISSE) |
| publishDate |
2021 |
| url |
https://doaj.org/article/3636a37b0d9c41f19cf0001a5989f168 |
| work_keys_str_mv |
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| _version_ |
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