Abstract
Betonarme binaların katlarının dökümü tek seferde yapılamadığından, katlar arasında soğuk derz ve kolon boyuna donatılarında bindirmeli ekler olması kaçınılmazdır. Bu tür binaların deprem performansı beton ile donatı arasında yeterli aderans dayanımı sağlanmasına bağlı olduğundan, bindirme ek davranısını anlamak ve bindirmeli eklerden kaynaklanan dayanım kaybını hesaba katmak çok önemlidir. Donatı çeliğinin akma ve kopma dayanımları bindirmeli ek bulunmasından, özellikle bindirmeli ek boyundan etkilenmektedir. Son yıllarda artan sıklıkta gerçeklestirilen deneysel çalısmalar ısığında, istatiksel yaklasımlara dayanan ve bindirmeli ekli donatı dayanımını hesaplayan denklemler formulize edilmektedir. Ne yazık ki bu denklemler, değisken sayısı arttıkça, özellikle tasarım uygulamaları için daha karmasık, hantal ve sıkıcı hal almaktadırlar. Bu çalısmanın deneysel çalısmalar kısmında, Ortadoğu Teknik Üniversitesi Yapı Mekaniği Laboratuvarında hazırlanmıs dört adet 1/3 ölçekli betonarme çerçeve, deprem yükünü benzestirecek tersinir-tekrarlanır yatay ve sabit düsey yükler altında test edilmisler ve kolon boyuna donatılarında bulunan yetersiz boydaki bindirmeli eklerin, çerçevelerin dayanım ve davranıslarına olan etkileri gözlemlenmistir. Kuramsal çalısmalar kısmında ise, Canbay ve Frosch [1] tarafından önerilen bindirmeli ekli donatı akma dayanımını hesaplayan denklem kullanılarak çizdirilen deney çerçevelerinin kuramsal yanal yük – deplasman grafikleri, deney sonuçlarıyla karsılastırılmıstır.
References
- [1] Canbay, E., Frosch, R. J., “Bond Strength of Lapped-Spliced Bars”, ACI Structural Journal, July-August 2005, Title No: 102-S62. [2] Baran, M., “Precast Concrete Panel Reinforced Infill Walls for Seismic Strengthening of Reinforced Concrete Framed Structures”, PhD thesis, Department of Civil Engineering, Middle East Technical University, Ankara, Turkey, 2005. [3] Susoy, M., “Seismic Strengthening of Masonry Infilled Reinforced Concrete Frames with Precast Concrete Panels”, MSc thesis, Department of Civil Engineering, Middle East Technical University, Ankara, Turkey, 2005. [4] Evaluation of Earthquake Damaged Concrete and Masonry Wall Buildings, Federal Emergency Management Agency (FEMA), FEMA 306, (1998). [5] Akın, E., Ph. D. Thesis, in Progress, Middle East Technical University, 06531, Ankara, Turkey. [6] Tankut, T., Ersoy, U., Özcebe, G., Baran, M., Okuyucu, D., “In Service Seismic Strengthening of RC Framed Structures”, Seismic Assessment and Rehabilitation of Existing Buildings, International Closing Workshop, NATO Project Sfp 977231, May 30-June 1, 2005, Istanbul, Turkey.
Abstract
Since the stories of a tall reinforced concrete
building can not be poured monolithically, the existence of cold
joints between the stories and lapped-splices in the column
longitudinal bars can be inevitable. Because the performance of
this kind of buildings depend on the adequate bond strength
between concrete and reinforcing steel, investigating the
behavior of lapped-splices and calculating the lapped-splice
strength is very important. The yield and ultimate strengths of
reinforcing steel are largely affected by the existence of lappedsplices,
especially by the lapped-splice length. In the light of the
experimental data obtained from the recent studies conducted in
a growing rate, new equations estimating splice strength which
are based on statistical approaches have been formulated.
Unfortunately, as more variables are added, the descriptive
equations become more complex and cumbersome, especially for
design applications. In the experimental part of this study, four
one-third scale reinforced concrete frames, constructed at the
Structural Mechanics Laboratory of Middle East Technical
University, were tested under both vertical and reversed-cyclic
lateral loads simulating the earthquake loads, and the effect of the lapped splices in the column longitudinal bars on the strength and behavior of reinforced concrete frames were investigated. In the analytical part of this study, the analytical load-displacement curves by using the equation formulated by Canbay and Frosch [1] considering the splice strength are compared with the results of the tests.
Keywords
Reinforced concrete cold joint column longitudinal bar lapped-splice bond strength reversed-cyclic lateral load
References
- [1] Canbay, E., Frosch, R. J., “Bond Strength of Lapped-Spliced Bars”, ACI Structural Journal, July-August 2005, Title No: 102-S62. [2] Baran, M., “Precast Concrete Panel Reinforced Infill Walls for Seismic Strengthening of Reinforced Concrete Framed Structures”, PhD thesis, Department of Civil Engineering, Middle East Technical University, Ankara, Turkey, 2005. [3] Susoy, M., “Seismic Strengthening of Masonry Infilled Reinforced Concrete Frames with Precast Concrete Panels”, MSc thesis, Department of Civil Engineering, Middle East Technical University, Ankara, Turkey, 2005. [4] Evaluation of Earthquake Damaged Concrete and Masonry Wall Buildings, Federal Emergency Management Agency (FEMA), FEMA 306, (1998). [5] Akın, E., Ph. D. Thesis, in Progress, Middle East Technical University, 06531, Ankara, Turkey. [6] Tankut, T., Ersoy, U., Özcebe, G., Baran, M., Okuyucu, D., “In Service Seismic Strengthening of RC Framed Structures”, Seismic Assessment and Rehabilitation of Existing Buildings, International Closing Workshop, NATO Project Sfp 977231, May 30-June 1, 2005, Istanbul, Turkey.
Details
| Journal Section | Articles |
|---|---|
| Authors | |
| Publication Date | June 15, 2009 |
| Submission Date | October 22, 2017 |
| Published in Issue | Year 2009 Volume: 1 Issue: 2 |
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