Sadık Varolgüneş scite author profile

ABSTRACT:The analyses of infill frame structures are generally done ignoring the presence of brick masonry in the analytical models but it is a prevalent mistake. Behaviors of such buildings vary significantly during the earthquake events. The lateral resisting capacity of infill wall actually restricts the column only up to the wall height but above the wall height, the free column deforms easily. In this paper, the effect of infill wall in formation of short column at military aid watchtower in Turkey has been analyzed and the analysis result compared with effect of earthquake that have been seen after earthquake. Keywords: RC structures, Masonry infill walls, Short column, EarthquakeBetonarme Binalarda Kısa Kolon Oluşumunda Dolgu Duvar Etkisi: Örnek Çalışma ÖZET: Dolgu duvar çerçeve yapılarının analizleri genellikle analitik modellerde tuğla duvar varlığını dikkate alınmadan yapılır fakat bu yaygın bir hatadır. Bu tür binaların davranışlar deprem durumunda önemli ölçüde değişmektedir. Dolgu duvarın yanal kuvvetlere dayanım kapasitesi gerçekte kolonu duvar yüksekliğine kadar olan bölümde sınırlamaktadır, duvar yüksekliğinin üstünde kalan kolon kolayca deforme olmaktadır. Bu çalışmada, Türkiye'de askeri bir karakol gözetleme kulesinde depremden dolayı oluşan kısa kolonda, dolgu duvar etkisi analiz edilmiş ve analiz sonucu deprem öncesi durumla karşılaştırılmıştır.

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The Effect of Magnetized Water on Compressive and Flexural Strength of Reactive Powder Concretes

Mohabbi

Varolgüneş

2019

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Bu çalışmanın amacı; manyetize edilmiş suyun, lifli ve lifsiz reaktif pudra betonların (RPB) basınç ve eğilme dayanımı üzerindeki etkisini incelemektir. Farklı manyetik alan şiddetleri manyetik su üretimi için kullanılabilmektedir. Bu çalışmada; 0.8-1 ve 1.2 Tesla şiddetindeki üç farklı manyetik alan şiddeti seçilmiştir. Manyetik su üretimi için farklı manyetik alan şiddetlerinde bekletme süresi 20 dakika olarak sabit alınmıştır. Elde edilen sonuçlar incelendiğinde; normal su kullanımı yerine manyetik su kullanımı, 7 ve 28 günlük basınç ve eğilme dayanımlarının artmasını sağladığı görülmüştür. Ayrıca manyetize edilmiş suyun, RPB'lerin basınç ve eğilme dayanımına olumlu etkisi olduğu ve dayanımı artırmak için en verimli manyetik alan şiddetinin 1 Tesla olduğu tespit edilmiştir.

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Field reconnaissance and structural assessment of the October 30, 2020, Samos, Aegean Sea earthquake: an example of severe damage due to the basin effect

et al. 2022

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An earthquake with a magnitude ranging from Mw = 6.9 (KOERI) to Mw = 7.0 (USGS) struck Samos Island in the Aegean Sea on October 30, 2020, with an epicentre 70 kms from the İzmir city centre in Turkey. The earthquake took place at 14:51 local time (11:51 UTC). The peak ground acceleration (PGA) of this earthquake was recorded to be 0.179 g at the epicentre of the earthquake. This earthquake occurred at a depth of 17.26 km (AFAD (2020) İzmir Earthquake Report, (In Turkish)) and lasted 16 s. The main shock from the earthquake triggered a tsunami that hit the building stocks built near the coast. During the gradual deregulation of COVID-19 pandemic regulations, various events caused considerable damage to the building stock, particularly in the Izmir Seferihisar and Bayraklı regions and resulted in a massive disruption of daily habits. The main shock caused 117 deaths in both Turkey and Greece, and 1632 people were also injured in Turkey. Moreover, several injuries occurred in Greece. A total of 103 buildings collapsed, 700 were severely damaged, 814 buildings were moderately damaged, and 7889 were slightly damaged. The basic aim of this paper is to briefly present the past and present seismotectonic characteristics of the region, present building stock, and former structural conditions before the earthquake, assess structural performance and classify distinguished earthquake-induced failures and damage due to the basin effect.

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Correction: Multidisciplinary analyses of the rupture characteristic of the June 14, 2020, Mw 5.9 Kaynarpınar (Karlıova, Bingöl) earthquake reveal N70E-striking active faults along the Yedisu Seismic Gap of the North Anatolian Fault Zone

Akbayram

Kiranşan

Varolgüneş

et al. 2023

Int J Earth Sci (Geol Rundsch)

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