Araştırma Makalesi
BibTex RIS Kaynak Göster
Yıl 2020, Cilt: 1 Sayı: 2, 6 - 22, 16.03.2020

Öz

Kaynakça

  • Allahabadi R., 1987, Drain 2DX – Seismic Response and Damage Assessment for 2D ‎Structures, Ph.D. Thesis, University of California at Berkeley, California.‎
  • ATC-40, Applied Technology Council, 1996, Seismic Evaluation and Retrofit of Concrete ‎Buildings, Volume 1-2, Redwood City, California‎
  • Behnam B., 2017., Post-earthquake fire analysis in Urban Structures: Risk management ‎strategies, CRC Press, Taylor& Francis Group, US
  • Bracci J.M., Kunnath S.K. and Reinhorn A.M., 1997, Seismic Performance and Retrofit ‎Evaluation of Reinforced Concrete Structures, Journal of Structural Engineering, ASCE, ‎Vol. 123, 3-10.‎
  • Chaudhari D.J. and Dhoot G.O., 2016. Performance Based Seismic Design of Reinforced ‎Concrete Building, Open Journal of Civil Engineering, 2016, 6, 188-194‎
  • Chpopra A.K. and Goel R.K., 2001, A modal pushover analysis procedure to estimate seismic ‎demands for buildings: Theory and preliminary evaluation, Report No PEER 2001/03, ‎Pacific Earthquake Engineering Research Center, University of California, Berkeley, ‎California.‎
  • COLA, City of Los Angeles, 1995, Earthquake Hazard Reduction in Existing Reinforced ‎Concrete Buildings and Concrete Frame Buildings with Masonry Infills, January 31, 1995.‎
  • Çavdar Ö., 2019. Investigation of the earthquake performance of a reinforced concrete shear ‎wall hotel using nonlinear methods, International Journal of Science and Engineering ‎Applications, 8-12, 509-516‎
  • Eberhard M.O. and Sözen M.A., 1993, Behavior-Based Method to Determine Design Shear in ‎Earthquake Resistant Walls, Journal of the Structural Division, American Society of Civil ‎Engineers, New York, Vol. 119, No.2, 619-640.‎
  • Fajfar P. and Fischinger M., 1987, Nonlinear Seismic Analysis of R/C Buildings: Implications of ‎a Case Study, European Earthquake Engineering, 31-43.‎
  • FEMA-356, Federal Emergency Management Agency, 2000, Pre-standard and Commentary for ‎Seismic Rehabilitation of Buildings, Washington DC
  • Gupta B., 1999, Enhanced Pushover Procedure and Inelastic Demand Estimation for ‎Performance-Based Seismic Evaluation of Buildings, Ph.D. Dissertation, University of ‎Central Florida, Orlando, FL.‎
  • Kim S. and D’Amore E., 1999. Push-over analysis procedures in earthquake engineering. ‎Earthq. Spectra. ISGL August. 417-434.‎
  • Krawinkler H. and Seneviratna G.D.P.K., 1998, Pros and Cons of a Pushover Analysis of ‎Seismic Performance Evaluation, Engineering Structures, Vol.20, 452- 464‎
  • Inel M. and Ozmen H.B., 2006. Effects of plastic hinge properties in nonlinear analysis of ‎reinforced concrete buildings, Engineering Structures 28, 494–1502‎
  • Moghadam A.S., 2002., A Pushover Procedure for Tall Buildings, 12th European Conference on ‎Earthquake Engineering, Paper Reference 395.‎
  • Mwafy A.M. and Elnashai A.S., 2001, Static Pushover versus Dynamic Analysis of R/C ‎Buildings, Engineering Structures, Vol. 23, 407-424.‎
  • Oğuz S., 2005, Evaluatıon of pushover analysıs procedures for frame structures, Master Thesis, ‎Middle East Technical University, Ankara, Turkey
  • Response 2000, Sectional Analysis Program, University of Toronto, Toronto
  • SAP2000 V21.1.0, 2019: Structural Analysis Program, Computers and Structures Inc., Berkeley, ‎California
  • Sasaki F., Freeman S. and Paret T., 1998, Multi-Mode Pushover Procedure (MMP)- A Method to ‎Identify the Effect of Higher Modes in a Pushover Analysis, Proc. 6th U.S. National ‎Conference on Earthquake Engineering, Seattle, CD-ROM, EERI, Oakland.‎
  • TBEC-2018, (Turkish Building Earthquake Code), Specifications for buildings to be built in ‎seismic areas. Ministry of Public Works and Settlement, Ankara, Turkey

Performance Analysis of a Reinforced Concrete Frame System According ‎to TBEC-2018 ‎

Yıl 2020, Cilt: 1 Sayı: 2, 6 - 22, 16.03.2020

Öz

In Turkey located on active earthquake zone, earthquake resistant ‎building design becomes more important with the rapidly increasing ‎population and urbanization. In the great earthquakes occurred in our ‎country for centuries, many people lost their lives after the earthquake ‎damaged the buildings and this also increase the importance of ‎building an earthquake resistant structure. The performance based ‎seismic design evaluates how the buildings are likely to implement ‎under an earthquake motion and is comprised linear elastic and ‎nonlinear elastic methods in recent seismic codes. In this study, the ‎performance based design of a four-storey and three-span reinforced ‎concrete frame system is performed according to the Turkish Building ‎Earthquake Code (TBEC-2018). The nonlineer static pushover ‎analysis of the reinforced concrete (RC) frame system carried out for ‎DD-2 level earthquake and it has been determined whether it has the ‎performance criteria targeted in the code.‎

Kaynakça

  • Allahabadi R., 1987, Drain 2DX – Seismic Response and Damage Assessment for 2D ‎Structures, Ph.D. Thesis, University of California at Berkeley, California.‎
  • ATC-40, Applied Technology Council, 1996, Seismic Evaluation and Retrofit of Concrete ‎Buildings, Volume 1-2, Redwood City, California‎
  • Behnam B., 2017., Post-earthquake fire analysis in Urban Structures: Risk management ‎strategies, CRC Press, Taylor& Francis Group, US
  • Bracci J.M., Kunnath S.K. and Reinhorn A.M., 1997, Seismic Performance and Retrofit ‎Evaluation of Reinforced Concrete Structures, Journal of Structural Engineering, ASCE, ‎Vol. 123, 3-10.‎
  • Chaudhari D.J. and Dhoot G.O., 2016. Performance Based Seismic Design of Reinforced ‎Concrete Building, Open Journal of Civil Engineering, 2016, 6, 188-194‎
  • Chpopra A.K. and Goel R.K., 2001, A modal pushover analysis procedure to estimate seismic ‎demands for buildings: Theory and preliminary evaluation, Report No PEER 2001/03, ‎Pacific Earthquake Engineering Research Center, University of California, Berkeley, ‎California.‎
  • COLA, City of Los Angeles, 1995, Earthquake Hazard Reduction in Existing Reinforced ‎Concrete Buildings and Concrete Frame Buildings with Masonry Infills, January 31, 1995.‎
  • Çavdar Ö., 2019. Investigation of the earthquake performance of a reinforced concrete shear ‎wall hotel using nonlinear methods, International Journal of Science and Engineering ‎Applications, 8-12, 509-516‎
  • Eberhard M.O. and Sözen M.A., 1993, Behavior-Based Method to Determine Design Shear in ‎Earthquake Resistant Walls, Journal of the Structural Division, American Society of Civil ‎Engineers, New York, Vol. 119, No.2, 619-640.‎
  • Fajfar P. and Fischinger M., 1987, Nonlinear Seismic Analysis of R/C Buildings: Implications of ‎a Case Study, European Earthquake Engineering, 31-43.‎
  • FEMA-356, Federal Emergency Management Agency, 2000, Pre-standard and Commentary for ‎Seismic Rehabilitation of Buildings, Washington DC
  • Gupta B., 1999, Enhanced Pushover Procedure and Inelastic Demand Estimation for ‎Performance-Based Seismic Evaluation of Buildings, Ph.D. Dissertation, University of ‎Central Florida, Orlando, FL.‎
  • Kim S. and D’Amore E., 1999. Push-over analysis procedures in earthquake engineering. ‎Earthq. Spectra. ISGL August. 417-434.‎
  • Krawinkler H. and Seneviratna G.D.P.K., 1998, Pros and Cons of a Pushover Analysis of ‎Seismic Performance Evaluation, Engineering Structures, Vol.20, 452- 464‎
  • Inel M. and Ozmen H.B., 2006. Effects of plastic hinge properties in nonlinear analysis of ‎reinforced concrete buildings, Engineering Structures 28, 494–1502‎
  • Moghadam A.S., 2002., A Pushover Procedure for Tall Buildings, 12th European Conference on ‎Earthquake Engineering, Paper Reference 395.‎
  • Mwafy A.M. and Elnashai A.S., 2001, Static Pushover versus Dynamic Analysis of R/C ‎Buildings, Engineering Structures, Vol. 23, 407-424.‎
  • Oğuz S., 2005, Evaluatıon of pushover analysıs procedures for frame structures, Master Thesis, ‎Middle East Technical University, Ankara, Turkey
  • Response 2000, Sectional Analysis Program, University of Toronto, Toronto
  • SAP2000 V21.1.0, 2019: Structural Analysis Program, Computers and Structures Inc., Berkeley, ‎California
  • Sasaki F., Freeman S. and Paret T., 1998, Multi-Mode Pushover Procedure (MMP)- A Method to ‎Identify the Effect of Higher Modes in a Pushover Analysis, Proc. 6th U.S. National ‎Conference on Earthquake Engineering, Seattle, CD-ROM, EERI, Oakland.‎
  • TBEC-2018, (Turkish Building Earthquake Code), Specifications for buildings to be built in ‎seismic areas. Ministry of Public Works and Settlement, Ankara, Turkey
Toplam 22 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Yapı Teknolojisi, İnşaat Yapım Mühendisliği
Bölüm Makaleler
Yazarlar

Zafer Kurt

Zeliha Tonyalı

Yayımlanma Tarihi 16 Mart 2020
Gönderilme Tarihi 17 Şubat 2020
Yayımlandığı Sayı Yıl 2020 Cilt: 1 Sayı: 2

Kaynak Göster

APA Kurt, Z., & Tonyalı, Z. (2020). Performance Analysis of a Reinforced Concrete Frame System According ‎to TBEC-2018 ‎. Sciennovation, 1(2), 6-22.