Araştırma Makalesi
BibTex RIS Kaynak Göster

Bina İçlerinde Depremin Zararlarını Önleyici Mekansal Tasarım Yaklaşımları

Yıl 2018, , 55 - 62, 06.02.2018
https://doi.org/10.29048/makufebed.377482

Öz

Türkiye'nin büyük bir
bölümü Anadolu deprem fayı üzerinde yer almaktadır ve son yıllarda birçok
deprem meydana gelmiştir; bu da depreme dayanıklı konut tasarımları anlayışını
zorunlu kılmıştır. Ana hedef, yapısal göçleri önleyerek hayat güvenliğini
sağlamaktır. Bu çalışmada, konut iç mekânı deprem anında üst katın çöküşüne
karşı kavramsal olarak tasarlanmış ve bu anlayışla tasarım konseptleri
geliştirilmiştir. Tasarımlar, 3ds Max programını kullanarak yapılmıştır. Bu tasarımlarda
en önemli nokta, mekânın tüm unsurlarının duvara sabitlenmesi ve işlev
kazanmasıdır. Böylece, deprem hasarları en aza indirgenebilir. Buna ek olarak,
iç mekânlarda kullanılan mobilyaların estetik ve çok fonksiyonlu olması
önemlidir. Sonuç olarak, depreme dayanıklı tasarım sadece statik bir süreç
değil, aynı zamanda sürekli gelişen bir süreçtir.

Kaynakça

  • Ahmadnejad, M.S., Darbandi, M. (2015). Study of safe design against earthquake with the furniture in kindergarten, based on the idea of the triangle of life. Current World Environment. 10 (Special Issue 1): 831-834.
  • Anonymous. (2017a). Houses and interiors report. Sismile project. http://sismileproject.com/pdf/DESCRIPTION%20OF%20HOUSES%20AND%20THEIR%20INTERIORS.pdf. (Access date: 05.07.2017)
  • Anonymous. (2017b). Earthquake resistant steel structure. http://constructalia.arcelormittal.com/files/Earthquake_EN-30417e866429d8b43c667cbab068084c.pdf. (Access date: 05.07.2017)
  • Azimi, N., Asgary, A. (2013). Rural residents and choice of building earthquake-resistant house: results of a choice experiment study. Environmental Hazards. 12 (3-4): 240-257.
  • FEMA. (2010). Earthquake-Resistant Design Concepts. Report number: FEMA P-749. Report of Federal Emergency Management Agency of the US Department of Homeland Security By the National Institute of Building Sciences Building Seismic Safety Council. Washington, DC.
  • Gülkan, P., Langenbach, R. (2004). The earthquake resistance of traditional timber and masonry dwellings in Turkey. 13th World Conference on Earthquake Engineering, August 1-6, 2004, Vancouver, Canada, Paper No:2297.
  • Hurol, Y. (2014). On ethics and the earthquake resistant interior design of buildings. Science Engineering Ethics. Science Engineering Ethics. 20:171-181.
  • JIA - JASO. (2012). Earthquake-resistant design for architects. The Japan Institute of Architects and Japan Aseismic Safety Organization. Shinkosha Printing Co. Tokyo.
  • Lewis, J. (2003). Housing construction in earthquake-prone places: Perspectives, priorities and projections for development. The Australian Journal of Emergency Management, 18(2): 35-44.
  • Şener, S. M., Altun, M.C. (2009). Design of a post disaster temporary shelter unit. ITU A|Z, 6(2):58-74.
  • Von Winterfeldt, D., Roselund, N., Kitsuse, A. (2000). Framing Earthquake Retrofitting Decisions: The Case of Hillside Homes in Los Angeles. PEER Report 2000/03. Pacific Earthquake Engineering Research Center College of Engineering University of California, Berkeley.

Spatial Design Approaches to Prevent Damages from Earthquake inside the Buildings

Yıl 2018, , 55 - 62, 06.02.2018
https://doi.org/10.29048/makufebed.377482

Öz

The facts that a
large part of Turkey is located on Anatolian earthquake fault and that many
earthquakes have occurred in recent years have forced earthquake-resistant
housing designs. The main objective is to ensure the safety of life by
preventing structural migrations. In this study, the parts of house are
conceptually designed against the collapse of the upper floor at the time of an
earthquake and these design concepts are illustrated. The design concepts have
been done by using the 3ds Max program. The most important point in these
designs is that all the elements of space fix to wall and are functional. Thus,
earthquake damages can be minimized. In addition, it is important that
furniture used in the interior areas should be aesthetic and multifunctional.
In conclusion, earthquake-resistant design is not only a static process, but
also it is constantly evolving.

Kaynakça

  • Ahmadnejad, M.S., Darbandi, M. (2015). Study of safe design against earthquake with the furniture in kindergarten, based on the idea of the triangle of life. Current World Environment. 10 (Special Issue 1): 831-834.
  • Anonymous. (2017a). Houses and interiors report. Sismile project. http://sismileproject.com/pdf/DESCRIPTION%20OF%20HOUSES%20AND%20THEIR%20INTERIORS.pdf. (Access date: 05.07.2017)
  • Anonymous. (2017b). Earthquake resistant steel structure. http://constructalia.arcelormittal.com/files/Earthquake_EN-30417e866429d8b43c667cbab068084c.pdf. (Access date: 05.07.2017)
  • Azimi, N., Asgary, A. (2013). Rural residents and choice of building earthquake-resistant house: results of a choice experiment study. Environmental Hazards. 12 (3-4): 240-257.
  • FEMA. (2010). Earthquake-Resistant Design Concepts. Report number: FEMA P-749. Report of Federal Emergency Management Agency of the US Department of Homeland Security By the National Institute of Building Sciences Building Seismic Safety Council. Washington, DC.
  • Gülkan, P., Langenbach, R. (2004). The earthquake resistance of traditional timber and masonry dwellings in Turkey. 13th World Conference on Earthquake Engineering, August 1-6, 2004, Vancouver, Canada, Paper No:2297.
  • Hurol, Y. (2014). On ethics and the earthquake resistant interior design of buildings. Science Engineering Ethics. Science Engineering Ethics. 20:171-181.
  • JIA - JASO. (2012). Earthquake-resistant design for architects. The Japan Institute of Architects and Japan Aseismic Safety Organization. Shinkosha Printing Co. Tokyo.
  • Lewis, J. (2003). Housing construction in earthquake-prone places: Perspectives, priorities and projections for development. The Australian Journal of Emergency Management, 18(2): 35-44.
  • Şener, S. M., Altun, M.C. (2009). Design of a post disaster temporary shelter unit. ITU A|Z, 6(2):58-74.
  • Von Winterfeldt, D., Roselund, N., Kitsuse, A. (2000). Framing Earthquake Retrofitting Decisions: The Case of Hillside Homes in Los Angeles. PEER Report 2000/03. Pacific Earthquake Engineering Research Center College of Engineering University of California, Berkeley.
Toplam 11 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Mühendislik
Bölüm Araştırma Makalesi
Yazarlar

Latif Gürkan Kaya 0000-0001-8033-1480

Cengiz Yücedağ

Hüseyin Samet Aşıkkutlu 0000-0002-3518-7202

Hale Çokyiğit Bu kişi benim

Yayımlanma Tarihi 6 Şubat 2018
Kabul Tarihi 5 Şubat 2018
Yayımlandığı Sayı Yıl 2018

Kaynak Göster

APA Kaya, L. G., Yücedağ, C., Aşıkkutlu, H. S., Çokyiğit, H. (2018). Spatial Design Approaches to Prevent Damages from Earthquake inside the Buildings. Mehmet Akif Ersoy Üniversitesi Fen Bilimleri Enstitüsü Dergisi, 9(1), 55-62. https://doi.org/10.29048/makufebed.377482