Tarihi Kubbeli Yapıların Çekme Bölgelerinde Karbon Fiber Takviyeli Polimer ve Cam Fiber Takviyeli Polimer Kullanılarak Güçlendirme Yönteminin Sonlu Elemanlar Analizi: Edirnekapı Mihrimah Sultan Camii Kubbesi

Year 2023, Volume: 8 Issue: Special Issue, 487 - 509, 26.12.2023

Hatice Öz , Asena Soyluk

https://doi.org/10.30785/mbud.1317703

Abstract

Tarihi yapılar, tarihsel sürdürülebilirlik açısından geçmişten günümüze, günümüzden geçmişe kültürel izleri ve mirası taşıyan dikkat çekici anıtlardır. Korunmaya değer bu varlıkların, kültürel birikimin devamlılığı için belirli müdahale kriterleri altında restore edilmesi ve güçlendirilmesi gerekmektedir. Tarihi yığma yapılar düşey yükler altında oldukça rijit bir performans sergilemelerine rağmen, depremlerin yarattığı sismik kuvvetler gibi yanal yüklere karşı çekme dayanımları düşüktür. Yığma yapıların önemli bir mimari unsuru olan kubbelerin sismik kuvvetlerin etkisi altında hasar görmesi muhtemeldir. Güçlendirme analizleri kubbe çekme bölgelerinde CFRP ve GFRP ile gerçekleştirilmiş ve Elastisite Modülü üzerinden okumalar yapılmıştır. Edirnekapı Mihrimah Sultan Camii, bulunduğu konum ve yaşadığı depremler nedeniyle sismik kuvvetlere duyarlı bir yapı olduğundan sonlu elemanlar modeli analizi için uygun görülmüştür.

Keywords

Sonlu eleman analizleri, Edirnekapı Mihrimah Sultan Camii, CFRP, GFRP, sismik hasar görebilirlik

Finite Element Analysis of Strengthening Method Using Carbon Fiber Reinforced Polymer and Glass Fiber Reinforced Polymer in Tensile Zones of Historical Domed Structures: Edirnekapi Mihrimah Sultan Mosque Dome

Abstract

Historic buildings are remarkable monuments that carry cultural traces and heritage from the past to the present and from the present to the past in terms of historical sustainability. These assets worthy of preservation should be restored and strengthened under certain intervention criteria for the continuity of cultural accumulation. Although historical masonry buildings exhibit a very rigid performance under vertical loads, their tensile strength against lateral loads such as seismic forces created by earthquakes is low. Domes, an important architectural element of masonry buildings, are likely to be damaged under the influence of seismic forces. The retrofitting analyses were performed with CFRP and GFRP in the dome tensile zones and readings were made on the Modulus of Elasticity. Since Edirnekapı Mihrimah Sultan Mosque is a structure sensitive to seismic force due to its location and the earthquakes experienced by the structure, it was deemed suitable for finite element model analysis.

Keywords

Finite element analyses, Edirnekapı Mihrimah Sultan Mosque, CFRP, GFRP, seismic vulnerability

Thanks

The article complies with national and international research and publication ethics. Ethics Committee approval was not required for the study.

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