ConfOrganizer 

  Abstract | 

  Abstract |    Highlights |    References | 

---

Paper Highlights

• Collapse of structures is one of the main concerns in the existing and designed buildings which are existent in seismic zones.
• This study evaluates the performance of intermediate moment-resisting reinforced concrete structures that are designed according to Iranian seismic code (standard No. 2800) in order to meet the collapse.
• To this aim, five intermediate moment-resisting reinforced concrete structures of 3, 5, 8, 10 and 15-storey (three-span) are designed. IDA and DCFD method based on NI were used to evaluate the performance of CP level.
• Results show that probabilistic demand (PD) of structures increases with height of the structures so that its value is larger than the capacity factored for 15-storey structure.

---

Paper References

• F. Jalayer, C.A. Cornell, A technical framework for probability-based demand and capacity factor (DCFD) seismic formats., Report No. RMS-43, Stanford University, 2003.
• SAC Joint Venture. (2000a). Recommended seismic design criteria for new steel moment frame buildings, Rep. No. FEMA-350, Federal Emergency Management Agency, Washington, D.C.
• Building & Housing Research Center, BHRC (2015). Iranian code of practice for seismic resistant design of buildings, Standard No. 2800, Publication PNS-253, 4rd Revision, 240, Tehran, Iran. (In Persian).
• Reinhorn, A.M., Kunnath, S.K., Valles-Mattox, R. (2009). IDARC2D Version 7.0: A computer program for the inelastic damage analysis of reinforced concrete buildings, State University of New York at Buffalo.
• Vamvatsikos, D., & Cornell, C. A. (2002). Incremental dynamic analysis. Earthquake Engineering & Structural Dynamics, 31(3), 491-514.‏