TY - JOUR T1 - Historical Stone Arch Bridges’ Damage Causes and Repair Techniques AU - Türker, Temel AU - Yanık, Yusuf AU - Çoruhlu, Berna AU - Kamber Yılmaz, Gonca PY - 2019 DA - December Y2 - 2019 JF - Journal of Investigations on Engineering and Technology JO - JIET PB - Karadeniz Technical University WT - DergiPark SN - 2687-3052 SP - 53 EP - 60 VL - 2 IS - 2 LA - en AB - Manyhistorical stone arch bridges have been exposed to the different environmentaleffects, which could cause structural damage, at different times. Under thesenatural or human-induced effects such as floods, earthquakes, the bridges werepartially or completely damaged. The repair of the historical arch bridges hasbeen repaired against to these damages. The success of the repair work dependson both a detailed archaeological-historical survey and a detailed structuralevaluation process carried out together. It is very important to determine theanswers to questions such as date and time of construction of the structure,whether there was any interruption in the construction process, the scheme andthe order of the damages of the structure, what were the repairs andstrengthening done in the structure and whether there was any change in the useof the environment. After these process, the repair method is determinedconsidering many alternatives such as partial or complete disassembly forremodeling of the bridge, regional repair or regional strengthening, fullstrengthening of the upper structure, removal of excess weight over the bridge,balancing of mass and stiffness distribution, improvement of structuralinteraction between arches and feet, strengthening of foundation system of thebridge. In this study, the repair methods against the damages occurred on thehistorical masonry arch bridges exposed to different damages have been tried tobe evaluated. KW - Arch Bridges KW - Damage causes KW - Repair methods CR - [1] Erdal, H. I. (2005). Inspection and Maintenance Management at Bridges (Master Thesis, Natural and Applied Sciences, Istanbul University, Turkey). CR - [2] Yucel, A. and Namli, R. (2007). Investigation of the Effects of Water and Other Factors on Distortion Around Bridge Legs, Eastern Anatolia Region Research. CR - [3] Bayraktar, A., Altunisik, A. C., Turker, T. and Sevim, B. (2007). The Effect of Finite Element Model Updating on Earthquake Behaviour of Historical Bridges, Sixth National Conference on Earthquake Engineering, Proceedings Book, 29-40. CR - [4] Ural, A., Oruc, S. and Dogangun, A. (2007). Restoration and strengthening of historical arch bridges in the eastern black sea region, Structure World Magazine, 132, 48-53. CR - [5] Alaboz, M. (2008). Evaluation of Actual Structural Conditions of Mimar Sinan Bridges in Marmara Region and Kapuagası Bridge Restoration Project (Master Thesis, Natural and Applied Sciences, Istanbul Technical University, Turkey). CR - [6] Korkmaz, K. A., Zabin, P., Çarhoğlu, A. I. and Nuhoğlu, A. (2013). Seismic behavior investigation of arc stone bridges: Timisvat bridge case. Journal of Advanced Technology Sciences, 2(1), 66-75. CR - [7] Fırat, F. K. and Eren, A (2015). Investigation of FRP effects on damaged arches in historical masonry structures, Journal of the Faculty of Engineering and Architecture of Gazi University, 30(4). CR - [8] Alpaslan, E., Haciefendioglu, K., Birinci, F. and Kurt, M. (2015). Linked to Local Empowerment in Historical Buildings Local Rigidity Effect of Growth Structure Conduct, Turkey Earthquake Engineering and Seismology Conference Proceedings. CR - [9] Koc, D. (2015). Strengthening Stone Arches in Historical Buildings with FRP (Master Thesis, Natural and Applied Sciences, Aksaray University, Turkey). CR - [10] Ilerisoy, Z. Y. and Sagir, M. (2016). Factors Deteriorating Historical Bridges and Investigation of Tercan Kotur Bridge in Erzincan, International Erzincan Symposium. CR - [11] Eren, A. (2018). Repairing of Masonry Arches Using FRP in Historical Structures (Master Thesis, Natural and Applied Sciences, Aksaray University, Turkey). CR - [12] URL1(2017),https://www.youtube.com/watch?v=pOT8tlCXTjg. (Online Accessed: 05.08.2019). CR - [13] Resemini, S. (2003). Seismic Vulnerability of Stone Arch Bridges, University of Sudi di Genova. CR - [14] Ozcan, Z. (2015). Damage Determination at Historic Sangarius Bridge and Strengthening Recommendations, 3rd Bridges Viaducts Symposium. CR - [15] Oliveira, D. and Lourenco P. (2004). Repair of stone masonry arch bridges, ARCH’04, CIMNE, Barcelona, 452–458. UR - https://dergipark.org.tr/en/pub/jiet/article/613110 L1 - https://dergipark.org.tr/en/download/article-file/903210 ER -