Development of analytical seismic fragility functions for the common buildings in Iran (original) (raw)

Bulletin of Earthquake Engineering

One of the main components for the development of regional seismic risk models is the fragility functions for common building types. Due to the differences between the national design codes, construction practices, and construction materials, it is necessary to develop speci c fragility functions for the common building types which are constructed in each region. One of the existing challenges is the lack of classi ed, reliable, and cogent local seismic fragility functions for common buildings in Iran. For this reason, the present study is devoted to lling this essential gap. Therefore, at the rst step, a comprehensive study was performed on the existing building types in the country. Finally, the Iranian common buildings are classi ed into 35 categories regarding material, lateral-loadresisting system, age, height, and code level. Also, by conducting comprehensive studies on all previously performed researches in the country, structural and dynamic parameters have been collected for buildings in each class. This information was used to compute a large set of backbone curves for Iranian buildings taxonomy. In the next steps, a large set of ground motion records were selected. Then non-linear time-history analyses were performed on the generic backbone curve for each type of building, and the structural responses were used to derive fragility functions for building classes. Then nearly three hundred appropriate fragility functions were generated for Iranian common buildings considering both record-to-record and building-to-building response variability using cloud analysis. Based on the existing empirical data from past earthquakes in the country, the validation of the resulting fragility functions was carried out. The resulted fragility functions can be utilized in seismic risk assessment studies in the country.