BEHAVIOR OF INDUSTRIAL BUILDING UNDER SEISMIC LOADING
Autor: | Maetee Boonpichetvong, Tanyada Pannachet, Piyawat Foytong, Nontawit Muangnoi, Apichat Janpila, Anat Ruangrassamee, Natthapong Areemit |
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Rok vydání: | 2020 |
Předmět: | |
Zdroj: | International Journal of GEOMATE. 18 |
ISSN: | 2186-2990 2186-2982 |
DOI: | 10.21660/2020.69.9186 |
Popis: | Every year, earthquakes cause injuries, deaths, severe structural damage to buildings anddestruction of property in many countries. In developing countries, economic growth depends on industrialdevelopment. Therefore, if an earthquake occurs, it may cause severe damage to large industrial factories. Thispresent study aims to examine the structural behavior of industrial buildings under the earthquake force whichis a reinforced concrete building. The structure of an industrial building is different from a general building. Inthis study, the factory is a four-story building with the dimensions of 34.4 meters in width, 59.2 meters inlength and 16.2 meters in height. In the analysis, the nonlinear dynamic procedure is applied to analyze thebuilding behaviors. The 20 seismic waves are selected and adjusted with the ASCE41-13. LMSR wave areconsidered in x-direction and y-direction. From the results, the responses and damage of the industrial structureare analyzed. The building has performed the soft story irregularity. The performance level for the acceptancecriteria, according to ASCE41-13 and FEMA365 is life safety performance level. Therefore, the industrialfactory building is needed to enhance the seismic capacity for damage prevention. |
Databáze: | OpenAIRE |
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