PSI - Issue 64

S. Kolemenoglu et al. / Procedia Structural Integrity 64 (2024) 857–868 Author name / Structural Integrity Procedia 00 (2019) 000–000

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EN 1542 (1999). Products and systems for the protection and repair of concrete structures - Test methods - Measurement of bond strength by pull-off EN 13412 (2006). Products and systems for the protection and repair of concrete structures - Test methods - Determination of modulus of elasticity in compression Ersoy, U., Tankut, A. T., Suleiman, R. 1993. “Behavior of jacketed columns”, Structural Journal, 90(3), 288-293. FEMA 306. 1998. “Evaluation of earthquake damaged concrete and masonry wall buildings: Basic procedures manual”, ATC, Redwood City, CA, USA. FEMA 307. 1998. “Evaluation of earthquake damaged concrete and masonry wall buildings: Technical Resources”, ATC, Redwood City, CA, USA. FIB 102. 2022. “Guide for Protection and Repair of Concrete Structures”, Federation Internationale du Beton, 10.35789/fib.BULL.0102 Ilki, A. ve N. Kumbasar, “Cyclic Behavior of Concrete Members Rehabilitated and Strengthened by Using Carbon Fiber Sheets,” Proc. 2nd International Conference on Engineering Materials, San Jose, Vol. II, 483-492, CSCE/JSCEE, Montreal/Tokyo, 2001. Ilki, A. ve N. Kumbasar, “Karbon Lif Takviyeli Polimer Kompozit Malzeme İle Hasarlı Betonarme Elemanların Onarım ve Güçlendirmesi”, İMO Teknik Dergi, TMMOB, 13(1), 2597-2616 (2002). Ilki, A., C. Demir, A. Karadeniz ve N. Kumbasar, “Hasarlı Betonarme Elemanların Çelik Köşebent ve Lamalar ile Güçlendirilmesi”, İTÜ Dergisi/d, 2(3), 3-16 (2003). Ilki, A., Demir, C., Bedirhanoglu, I., Kumbasar, N. 2009. “Seismic retrofit of brittle and low strength RC columns using fiber reinforced polymer and cementitious composites”, Advances in Structural Engineering, 12(3), 325-347. Japan Building Disaster Prevention Association. 2016. “Standard for Post-earthquake Damage Level Classification of Buildings”, Japan. Ludovico D. M., Polese M., d’Aragona M. G., Prota A., Manfredi G., 2013, “A proposal for plastic hinges modification factors for damaged RC columns”, Engineering Structures 51 (2013) 99-112, https://doi.org/10.1016/j.engstruct.2013.01.009 Ozcan, O., Binici, B., Canbay, E., Ozcebe, G. 2010. “Repair and strengthening of reinforced concrete columns with CFRPs”, Journal of reinforced plastics and composites, 29(22), 3411-3424. Parks, J. E., Brown, D. N., Ameli, M. J., Pantelides, C. P. 2016. “Seismic Repair of Severely Damaged Precast Reinforced Concrete Bridge Columns Connected with Grouted Splice Sleeves”, ACI Structural Journal, 113(3). Ruili He, Lesley H. Sneed, and Abdeldjelil Belarbi. 2013. “Rapid Repair of Severely Damaged RC Columns with Different Damage Conditions: An Experimental Study”, International Journal of Concrete Structures and Materials, Vol.7, No.1, pp.35–50, 10.1007/s40069-013-0030-7 Sezen, H. 2012. “Repair and strengthening of reinforced concrete beam-column joints with fiber-reinforced polymer composites”, Journal of Composites for Construction, 16(5), 499-506. Sarrafzadeh M. M. 2022. “Residual Capacity and Reparability of Moderately-Damaged Reinforced Concrete Ductile Frame Structures”, A thesis submitted in fulfilment of the requirements of the degree of Doctor of Philosophy, The University of Auckland, Department of Civil and Environmental Engineering Shegay A. V., Miura K., Akira M., Maeda M., Seki M., 2023, “Performance recovery of a repaired 4-storey reinforced concrete structure subjected to shake-table testing”, The Journal of The International Earthquake Engineering Structural Dynamics 2023;52:1339–1359, DOI: 10.1002/eqe.3818 TCIP 2024 Technical Report Submitted the Ministry of Environment, Urbanization and Climate Change Turkish Building Seismic Code (2018). Official Gazetta 30364, Disaster and Emergency Management Presidency (AFAD), Ankara, Türkiye.