Araştırma Makalesi
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INVESTIGATION OF THE USE OF BUILDING MATERIALS PRODUCED BY NANOTECHNOLOGICAL METHOD IN THE CONSTRUCTION SECTOR

Yıl 2022, Cilt: 5 Sayı: 1, 14 - 27, 06.07.2022

Öz

Advances in technology and science have led to changes in architectural designs. In addition, the change in user requests and the increase in comfort level over time have had an impact on the change in architectural designs. Nanotechnology, which is among the developing technologies, has contributed to the change and development of architectural designs. In this study, it is aimed to examine the use of building materials produced by nanotechnological method in the construction industry. A literature search was conducted within the scope of the study. In the study, examples of the use of non-technological building materials are given and explained. As a result of the literature review, the use of nanotechnological building materials in the construction industry has enabled durable, high insulation and different architectural designs to be made. In addition, the high optical, thermal and insulating properties of nanotechnological materials have contributed to the protection of nature and the environment in the context of sustainability by ensuring the use of waste products during the production of these materials, as well as increasing the isolation of the structure.

Kaynakça

  • [1] Akhnoukh, A. (2013). Overview of Nanotechnology Applications in Construction Industry in the United States. Micro and Nanosystems Journal, 5(2), 147-153.
  • [2] Sanchez, F., & Sobolev, K. (2010). Nanotechnology in Concrete – a Review. Construction and Building Materials, 24(11), 2060- 2071.
  • [3] Teizer, J., Venugopal, M., Teizer, W., & Felkl, J. (2011). Nanotechnology and its Impact on Construction: Bridging the Gap Between Researchers and Industry Professionals. Journal of Construction Engineering and Management, 138(5), 594–604.
  • [4] Hanus, M. J., & Harris, A. T. (2013). Nanotechnology Innovations for the Construction Industry. Progress in Materials Science, 58(7), 1056-1102.
  • [5] Mukhopadhyay, A. K. (2011). Next‐generation Nano‐Based Concrete Construction Products: A Review. In: Nanotechnology in Civil Infrastructure, Berlin Heidelberg: Springer, 207-223.
  • [6] Vigneshkumar, C. (2014). Study on Nanomaterials and Application of Nanotechnology and its Impacts in Construction. Discovery, 23(75), 8-12.
  • [7] Tue, N., Küchler, M., Schenck, G., & Jürgen, R. (2004). Application of UHPC Filled Tubes in Buildings and Bridges, 807-817, Erişim Linki: http://www.uni-kassel.de/upress/online/frei/978-3-89958-086-0.volltext.frei.pdf. Erişim Tarihi: 07.07.2021.
  • [8] Tang, M. C. (2004). High Performance Concrete – Past, Present and Future, 3-9, Erişim Linki: http://www.uni-kassel.de/upress/online/frei/978-3-89958-086-0.volltext.frei.pdf. Erişim Tarihi: 07.07.2021.
  • [9] Ductal, Erişim Linki: https://www.ductal.com/en/mucem. Erişim Tarihi: 13.07.2021.
  • [10] Kalnæs, S. E., & Jelle, B. P. (2015). Phase Change Materials and Products for Building Applications: A State-of-The-Art Review And Future Research Opportunities. Energy and Buildings, 94, 150-176.
  • [11] Kong, X., Lu, S., Huang, J., Cai, Z., & Wei, S. (2013). Experimental Research on The Use of Phase Change Materials in Perforated Brick Rooms for Cooling Storage. Energy and Buildings, 62, 597–604.
  • [12] Baetens, R., Jelle, B. P., Thue, J. V., Tenpierik, M. J., Grynning, S., Uvsløkk, S., & Gustavsen, A. (2010). Vacuum Insulation Panels for Building Applications: A review and Beyond. Energy and Buildings, 42(2), 147-172.
  • [13] Alam, M., Singh, H., & Limbachiya, M. C. (2011). Vacuum Insulation Panels (VIPs) for Building Construction Industry–A review of The Contemporary Developments and Future Directions. Applied Energy, 88(11), 3592-3602.
  • [14] Pool M. (17–18 September, 2009). Insulation of a Mixed Use Building with 7 storeys in Munich with VIP. In: Proceedings of the 9th international vacuum insulation symposium (IVIS 2009), London, UK.
  • [15] El-Samny, M.F. (2008). Nanoarchitecture. University Of Alexandria, Egypt.
  • [16] Leydecker, S. (2008). Nano Materials in Architecture, Interior Architecture and Design. Germany: Birkhauser.
  • [17] Atwa, M., Al-Kattan, A., & Elwan, A. (2015). Towards Nano Architecture: Nanomaterial in Architecture-A Review of Functions and Applications. International Journal of Recent Scientific Research, 6(4), 3551-3564.
  • [18] Pacheco-Torgal, F., & Jalali, S. (2011). Nanotechnology: Advantages and Drawbacks in The Field of Construction and Building Materials. Construction and Building Materials, 25(2), 582-590.
  • [19] McIntyre, R. A. (2012). Common Nano-Materials and Their Use in Real World Applications. Science progress, 95(1), 1-22.

NANOTEKNOLOJİK YÖNTEMLE ÜRETİLEN YAPI MALZEMELERİNİN İNŞAAT SEKTÖRÜNDE KULLANIMININ İNCELENMESİ

Yıl 2022, Cilt: 5 Sayı: 1, 14 - 27, 06.07.2022

Öz

Teknolojide ve bilimde yaşanan ilerlemeler mimari tasarımların değişmesine yol açmıştır. Ayrıca zamanla kullanıcı isteklerinin değişmesinin ve konfor düzeyinin yükselmesinin mimari tasarımların değişmesine etkisi olmuştur. Gelişen teknolojiler arasında yer alan nanoteknolojide mimari tasarımların değişmesine ve gelişmesine katkısı olmuştur. Bu çalışmada, nanoteknolojik yöntemle üretilen yapı malzemelerinin inşaat sektöründe kullanımının incelenmesi amaçlanmıştır. Çalışmanın konu kapsamında literatür araştırması yapılmıştır. Çalışmada, nonteknolojik yapı malzemelerinin kullanımına ilişkin örnekler verilerek açıklanmıştır. Yapılan literatür incelemelerinin sonucunda, nanoteknolojik yapı malzemelerinin inşaat sektöründe kullanılmasıyla dayanıklı, yalıtım açısından yüksek ve farklı mimari tasarımların yapılabilmesine olanak tanımıştır. Ayrıca nanoteknolojik malzemelerin optik, termal ve yalıtım özelliğinin yüksek olması yapının izolasyonunun artmasının yanı sıra bu malzemelerin üretimi sırasında atık ürünlerin kullanılmasını sağlayarak sürdürülebilirlik bağlamında doğanın ve çevrenin korunmasına katkı sağlamıştır.

Kaynakça

  • [1] Akhnoukh, A. (2013). Overview of Nanotechnology Applications in Construction Industry in the United States. Micro and Nanosystems Journal, 5(2), 147-153.
  • [2] Sanchez, F., & Sobolev, K. (2010). Nanotechnology in Concrete – a Review. Construction and Building Materials, 24(11), 2060- 2071.
  • [3] Teizer, J., Venugopal, M., Teizer, W., & Felkl, J. (2011). Nanotechnology and its Impact on Construction: Bridging the Gap Between Researchers and Industry Professionals. Journal of Construction Engineering and Management, 138(5), 594–604.
  • [4] Hanus, M. J., & Harris, A. T. (2013). Nanotechnology Innovations for the Construction Industry. Progress in Materials Science, 58(7), 1056-1102.
  • [5] Mukhopadhyay, A. K. (2011). Next‐generation Nano‐Based Concrete Construction Products: A Review. In: Nanotechnology in Civil Infrastructure, Berlin Heidelberg: Springer, 207-223.
  • [6] Vigneshkumar, C. (2014). Study on Nanomaterials and Application of Nanotechnology and its Impacts in Construction. Discovery, 23(75), 8-12.
  • [7] Tue, N., Küchler, M., Schenck, G., & Jürgen, R. (2004). Application of UHPC Filled Tubes in Buildings and Bridges, 807-817, Erişim Linki: http://www.uni-kassel.de/upress/online/frei/978-3-89958-086-0.volltext.frei.pdf. Erişim Tarihi: 07.07.2021.
  • [8] Tang, M. C. (2004). High Performance Concrete – Past, Present and Future, 3-9, Erişim Linki: http://www.uni-kassel.de/upress/online/frei/978-3-89958-086-0.volltext.frei.pdf. Erişim Tarihi: 07.07.2021.
  • [9] Ductal, Erişim Linki: https://www.ductal.com/en/mucem. Erişim Tarihi: 13.07.2021.
  • [10] Kalnæs, S. E., & Jelle, B. P. (2015). Phase Change Materials and Products for Building Applications: A State-of-The-Art Review And Future Research Opportunities. Energy and Buildings, 94, 150-176.
  • [11] Kong, X., Lu, S., Huang, J., Cai, Z., & Wei, S. (2013). Experimental Research on The Use of Phase Change Materials in Perforated Brick Rooms for Cooling Storage. Energy and Buildings, 62, 597–604.
  • [12] Baetens, R., Jelle, B. P., Thue, J. V., Tenpierik, M. J., Grynning, S., Uvsløkk, S., & Gustavsen, A. (2010). Vacuum Insulation Panels for Building Applications: A review and Beyond. Energy and Buildings, 42(2), 147-172.
  • [13] Alam, M., Singh, H., & Limbachiya, M. C. (2011). Vacuum Insulation Panels (VIPs) for Building Construction Industry–A review of The Contemporary Developments and Future Directions. Applied Energy, 88(11), 3592-3602.
  • [14] Pool M. (17–18 September, 2009). Insulation of a Mixed Use Building with 7 storeys in Munich with VIP. In: Proceedings of the 9th international vacuum insulation symposium (IVIS 2009), London, UK.
  • [15] El-Samny, M.F. (2008). Nanoarchitecture. University Of Alexandria, Egypt.
  • [16] Leydecker, S. (2008). Nano Materials in Architecture, Interior Architecture and Design. Germany: Birkhauser.
  • [17] Atwa, M., Al-Kattan, A., & Elwan, A. (2015). Towards Nano Architecture: Nanomaterial in Architecture-A Review of Functions and Applications. International Journal of Recent Scientific Research, 6(4), 3551-3564.
  • [18] Pacheco-Torgal, F., & Jalali, S. (2011). Nanotechnology: Advantages and Drawbacks in The Field of Construction and Building Materials. Construction and Building Materials, 25(2), 582-590.
  • [19] McIntyre, R. A. (2012). Common Nano-Materials and Their Use in Real World Applications. Science progress, 95(1), 1-22.
Toplam 19 adet kaynakça vardır.

Ayrıntılar

Birincil Dil Türkçe
Konular Mimari Tasarım, Mühendislik
Bölüm Araştırma Makalesi
Yazarlar

Ahmet Cihat Arı 0000-0002-4690-8968

Yayımlanma Tarihi 6 Temmuz 2022
Kabul Tarihi 23 Aralık 2021
Yayımlandığı Sayı Yıl 2022 Cilt: 5 Sayı: 1

Kaynak Göster

APA Arı, A. C. (2022). NANOTEKNOLOJİK YÖNTEMLE ÜRETİLEN YAPI MALZEMELERİNİN İNŞAAT SEKTÖRÜNDE KULLANIMININ İNCELENMESİ. Uluborlu Mesleki Bilimler Dergisi, 5(1), 14-27.
Creative Commons Lisansı
Isparta Uygulamalı Bilimler Üniversitesi Uluborlu Mesleki Bilimler Dergisi Creative Commons Atıf-GayriTicari 4.0 Uluslararası Lisansı ile lisanslanmıştır.