Main Article Content
Water tries to infiltrate the roof and facade joints. It is important to choose waterproofing materials according to the type of roof, to apply and to dissolve the details of the regions penetrating the roof, for the performance and continuity of waterproofing. The biggest problems in the outer shell of the above ground structure are due to the selection and application of faulty materials. In this study, it was aimed to determine the waterproofing material criteria of the architects and engineers by examining the preferences and solutions of waterproofing materials on the roofs and facades and to make the most common and appropriate insulation material choices by revealing the experiences of the past construction site. In the study, roof and facade waterproofing applications, materials and selection criteria of 50 constructions in the same climate zone and district were investigated. In the examination, it was seen that waterproofing was not done in the structures where shingle and metal roof roofing were used. In the chimney and parapet regions, measures are taken in all buildings. On the façades, it was found that water repellent paints were widely used against the impact of water, but it was determined that there was no measure against the water except for the curtain wall joinery.
This work is licensed under a Creative Commons Attribution-NoDerivatives 4.0 International License.
When the article is accepted for publication in the Journal of Awareness, authors transfer all copyright in the article to the Rating Academy Ar-Ge Yazılım Yayıncılık Eğitim Danışmanlık ve Organizasyon Ticaret Ltd. Şti.The authors reserve all proprietary right other than copyright, such as patent rights.
Everyone who is listed as an author in this article should have made a substantial, direct, intellectual contribution to the work and should take public responsibility for it.
This paper contains works that have not previously published or not under consideration for publication in other journals.
BULUT Ü., 2005, Teras Çatılar Üzerine Mimari Bir Değerlendirme, www.catider.org.tr [Erişim Tarihi: 11.Ocak.2019].1-9
DE BRITO J, BATISTA S, WALTER A., 2003, Inspection and diagnosis system for flat roof waterproofing. In: Seminar on Quality Control and Service Life Prediction of Current Buildings Waterproofing (in Portuguese), Lisbon, 57
GONCX ALVES M., LOPES J.G., BRITO J. DE,. Lopes G.A., 2008, Mechanical Performance of Lap Joints Of Flatroof Waterproofıng Membranes, Experimental Techniques, January/February,50-58
GRANDÃO LOPES J., 1994, Flat Roof Waterproofing Systems, Report ITE 34 (in Portuguese), L.N.E.C., Lisbon, 288
GEL, M.K.2001, Temelden Çatıya Su Yalıtımın Önemi ve Uygulamalar”, TMMOB Makine Mühendisleri Odası Yalıtım Kongresi, 23-24-25 Mart 2001, Eskişehir, Makine Mühendisleri Odası, 128-135
GÜZELÇOBAN S., 2007, Yapılarda Su ve Isı Etkenleri, Oluşturduğu Sorunlar, Nedenleri ve Çözüm Önerileri, Yüksek Lisans Tezi, Yıldız Teknik Üniversitesi, Fen Bilimleri Enstitüsü FBE Mimarlık Anabilim Dalı, İstanbul, 230.
TEKİN, Ç., DİRİ A.C., BONFİL, J. 2016. Mimari Yapılarda Su Yalıtımı, Yapı Endüstri Merkezi Yayınları, 202
WALTERA A., BRİTOB J., LOPESC J., 2005, Current flat roof bituminous membranes waterproofing system–inspection, diagnosis and pathology classification, Construction and Building Materials, 19(3), 233-24
http://www.resmigazete.gov.tr/eskiler/2017/10/20171027-1.htm, Binalarda Su Yalıtımı Yönetmeliği, 27 Ekim 2017