Feridun Çılı scite author profile

Feridun Çılı

5Publications

11Citation Statements Received

41Citation Statements Given

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Istanbul Technical University

Publications

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Strength capacity of unreinforced masonry cylindrical columns under seismic transverse forces

Gürel

Pekgökgöz

Çılı

2011

Bull Earthquake Eng

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In this paper, the seismic resistance of unreinforced masonry (URM) cylindrical columns is investigated with an equivalent static analysis procedure. To this end, an existing numerical model developed for the stability analysis of masonry elements with rectangular cross-section is utilized and modified for the cylindrical columns. In the numerical model which takes into account the cracking of the sections and the second-order effects, the columns are divided ideally into sufficiently high number of elements, each having uniform curvature. The columns are modeled as prismatic cantilevers undergoing their own weights, eccentric vertical loads and distributed and concentrated static horizontal loads equivalent to the inertia actions. By considering two examples of columns, firstly a reference column and secondly a column from a real building, lateral seismic coefficient versus top drift level curves are obtained. On the basis of these curves, lateral load behavior of the columns is interpreted and maximum seismic load values which can be resisted by each column are determined. Implementing parametric analyses on the reference column, sensitivity of the seismic resistance to parameters such as column slenderness, magnitude and eccentricity of vertical top load, and the flexibility parameter is determined. The influence of some structural imperfections such as the deviation from vertical on the seismic resistance is also discussed in the paper.

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Dynamic Analysis of Vertically Post-Tensioned Masonry Minarets

Pekgökgöz

Gürel

Mammadov

et al. 2012

Journal of Earthquake Engineering

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In Situ dynamic system identification of historic masonry monuments based on non-destructive testing

Dabanlı¹,

Kâhya²,

Çılı³

2021

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A Seismic Isolation Application Using Rubber Bearings; Hangar Project in Turkey

Sesigur¹,

Çılı²

2008

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Seismic isolation is an effective design strategy to mitigate the seismic hazard wherein the structure and its contents are protected from the damaging effects of an earthquake. This paper presents the Hangar Project in Sabiha Gokcen Airport which is located in Istanbul, Turkey. Seismic isolation system where the isolation layer arranged at the top of the columns is selected. The seismic hazard analysis, superstructure design, isolator design and testing were based on the Uniform Building Code (1997) and met all requirements of the Turkish Earthquake Code (2007). The substructure which has the steel vertical trusses on facades and RC H shaped columns in the middle axis of the building was designed with an R factor limited to 2.0 in accordance with Turkish Earthquake Code. In order to verify the effectiveness of the isolation system, nonlinear static and dynamic analyses are performed. The analysis revealed that isolated building has lower base shear (approximately 1/4) against the non-isolated structure.

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Importance of Wood and Iron Tension Members on Seismic Performance of Historic Masonry Buildings: Three Case Studies from Turkey

Celik

Sesigur²,

Çılı³

2009

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Feridun Çılı

Strength capacity of unreinforced masonry cylindrical columns under seismic transverse forces

Dynamic Analysis of Vertically Post-Tensioned Masonry Minarets

In Situ dynamic system identification of historic masonry monuments based on non-destructive testing

A Seismic Isolation Application Using Rubber Bearings; Hangar Project in Turkey

Importance of Wood and Iron Tension Members on Seismic Performance of Historic Masonry Buildings: Three Case Studies from Turkey

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