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Biyomimetrik Yapı Malzemeleri ile Post Pandemik Döneme Uygun İç Mekanlar Tasarlanması

Year 2023, Volume: 8 Issue: 2, 299 - 326, 30.04.2023
https://doi.org/10.26835/my.1132854

Abstract

Post pandemi sürecinde, yeni normallerle birlikte yeni yaşam biçimleri büyük değişimler getirmiştir. Salgın, insanları çoğu alanda etkilerken, insanların mekanları kullanım şekillerini de değişmiştir ve tasarımcılar doğanın parçası olan mekanlar tasarlamalıdır. Biyomimikri, doğanın zaman içinde test ettiği modelleri ve stratejileri taklit ederek, insanların sürdürülebilir çözümler arayan, problemlerine çözümler sunan inovatif bir yaklaşımdır. Bu yaklaşımla, doğal malzemelerin sırlarını çözerek, sentetik ve çevre dostu malzemelerin gelişmiş özelliklerine sahip tasarımlar yapılabilir. Post pandemi döneminde, insanların doğadan kopması sebebiyle, iç mekan ve donatı tasarımlarında insan-doğa ilişkisi yeniden ele alınmalıdır. Doğal ve biyomimetrik yapı malzemeleri ve sürdürülebilirlik tüm mekanlarda uygulanmalıdır. Bu çalışma, post pandemi döneminde iç mekanda malzeme kullanım ölçütleri baz alınarak seçilen biyomimetrik yapı malzemeleri ile, yeni tasarlanacak iç mekanların yaratım sürecini değiştirmeyi amaçlamaktadır. Çalışmada, çoklu durum analizi ile biyomimetrik yapı malzemeleri belirlenerek, iç mekanlarda bu malzemelerin kullanım ölçütleri karşılaştırmalı analiz yöntemi ile tespit edilmiştir.

Thanks

Bu makale, Mimar Sinan Güzel Sanatlar Üniversitesi Fen Bilimleri Enstitüsü İç Mimarlık Ana Bilim Dalı’nda 2022 yılında tamamlanan Bilimsel Araştırma Yöntemleri ve Etik dersi kapsamında Arş. Gör. Dr. Gamze Ergin desteği ile yazılmıştır. Makalede, ulusal ve uluslararası araştırma ve yayın etiğine uyulmuştur. Çalışmada Etik Kurul izni gerekmemiştir.

References

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  • Ataç, A. (2019). Mimarlıkta biyomalzemelerin kullanımı: Sıkıştırılmış toprak blokların performansının mikorizal mantar kullanılarak geliştirilmesi. Master Tezi, Lisansüstü Programlar Enstitüsü, 9-35.
  • Attias, N. (2016). Biological Materials - Cabinets of Curiosities. D. Y. Van-Essen, B. Bauer, A. Blonder, & N. Lazarovich içinde, Life Object - Merging Biology & Architecture (s. 123-130). Montreal: Sternthal Books.
  • Baumeister, D. (2007). Biomimicry. (s. 8). Seattle, USA: Presentation at the University of Washington College of Architecture.
  • Benyus, J. (1998). Innovation Inspired by Nature: Biomimicry. New York: William Morrow & Co.
  • Bettaieb, D. M., & Alawad, A. A. (2018). Considerations of interior design in domestic space between multiplicity of the concepts and determination of constants. Art and Design Review, 48-60.
  • Cartwright, K. S., & Mitten, D. (2018). Quantifying the human-nature relationship: A user's guide. Research in Outdoor Education, 42-70.
  • Crook, L. (2019, 07 29). Recyclable house is built from cork blocks. 05 28, 2022 tarihinde Dezeen: https://www.dezeen.com/2019/07/29/cork-house-matthew-barnett-howland-sustainable-architecture/ adresinden alındı
  • Çebi, E. (2020). Covid-19 salgını döneminde "normal" ve" yeni normal" yaşam üzerine bir araştırma. Journal of International Social Research, 583-587.
  • Doremalen, V., Bushmaker, N., Morris, T., Holbrook, D., Gamble, M., Williamson, A., . . . Munster, V. (2020). Aerasol and surface stability of SARS-CoV-2 as compared with SARS-Cov-1. New England Journal of Medicine, 1564-1567.
  • El-Zeiny, R. M. (2012). Biomimicry as a problem solving methodology in interior architecture. Procedia - Social and Behavioral Sciences, 502-512.
  • Essen, Y. E., Bauer, B., Lazarovich, N., & Blonder, A. (2016). Life Object - Merging Biology and Architecture. Montreal: Sternthal Books.
  • Fairs, M. (2021, 07 9). Salt panels made using "only sun and wind" used to clad interior of Frank Gehry's Arles tower. 05 28, 2022 tarihinde Dezeen: https://www.dezeen.com/2021/07/09/carbon-salt-panels-interior-frank-gehrys-arles-tower-luma/ adresinden alındı
  • Femenias, P., & Geromel, F. (2019). Adaptable housing? A quantitative study of contemporary apartment layouts that have been rearranged by end-users. Journal of Housing and the Built Environment, 481-505.
  • Frearson, A. (2021, 10 22). Buildings could "definitely" be made exclusively from plant-based products says biomaterials CEO. 04 08, 2022 tarihinde Dezeen: https://www.dezeen.com/2021/10/22/biomaterials-biobased-creations-lucas-de-man-interview/ adresinden alındı
  • Frearson, A. (2021, 10 20). House built from 100 different plant-based materials unveiled at Dutch Design Week. 05 06, 2022 tarihinde Dezeen: https://www.dezeen.com/2021/10/20/biomaterials-house-dutch-design-week-biobased-creations/ adresinden alındı
  • Group, T. B. (2017, 05 16). MycoTree - Seoul Biennale for Architecture and Urbanism 2017. 06 8, 2022 tarihinde BRG Arch: https://block.arch.ethz.ch/brg/project/mycotree-seoul-architecture-biennale-2017 adresinden alındı
  • Hebel, D. E., & Heisel, F. (2017). Cultivated building materials industrialized natural resources for architecture and construction. Berlin, Germany: Birkhäuser.
  • Heisel, F., Schlesier, K., Lee, J., Rippmann, M., Saeidi, N., Javadian, A., . . . Block, P. (2017). Design of a load-bearing mycelium structure through informed structural engineering. The MycoTree at the 2017 Seoul Biennale of Architecture and Urbanism, 45-49.
  • Jacobsen, K. H. (2020). Will COVID-19 generate global preparedness? The Lancet, 1013.
  • Levy, N. (2020, 01 09). Hemp is used on interior and exterior of zero-carbon Flat House in Cambridgeshire. 05 18, 2022 tarihinde Dezeen: https://www.dezeen.com/2020/01/09/flat-house-hempcrete-practice-architecture-margent-farm/ adresinden alındı
  • Liu, K., & Jiang, L. (2011). Bio-inspired design of multiscale structures for function integration. Nano Today, 155-175.
  • Lodato, F. (2010). Bionics in action: the nature of invention. Technology and Innovation. Technology and Innovation, 1-100.
  • Makhno, S. (2022, 05 17). Life after coronavirus: how will the pandemic affect our homes? dezeen.com: https://www.dezeen.com/2020/03/25/life-after-coronavirus-impact-homes-design-architecture/ adresinden alındı
  • Mayr, E. (2014). Biyoloji Budur. İstanbul, Türkiye: Say Yayıncılık.
  • McKittrick, J. M., Chen, P., Tomolato, L., Novitskaya, E. E., Trim, M. W., Hirata, G. A., . . . Meyers, M. A. (2010). Energy absorbent natural materials and bioinspired design strategies: a review. Materials Science and Engineering: C, 331-342.
  • Oxman, N. (2010). Material-based design computation. Doctoral dissertation, Massachusetts Institute of Technology.
  • Pawlyn, M. (2011). Biomimicry in Architecture. Marylebone: RIBA Publishing.
  • Rassia, S. T. (2020). How architecture fails in conditions of crisis: a discussion on the value of interior design over the COVID-19 outbreak. SN Operations Araştırma Forumu (s. 1-3). SN Operations Araştırma Forumu.
  • Salama, A. (2020). Coronavirus questions that will not go away: interrogating urban and socio-spatial implications of COVID-19 measures. Emerald Open Research, Vol. 2.
  • Shamaileh, A. A. (2021). Reconsidering the criteria of the healthy house's interior design during crises: COVID-19 pandemic as an example. International Journal of Human Rights in Healthcare.
  • Spiegelhalter, T. (2010). Biomimicry and circular metabolism for the cities of the future. S. H. C. A. Brebbia içinde, The Sustainable City VI: Urban Regeneration and Sustainability (s. 215-226). Florida, USA: WIT Transactions on Ecology and the Environment.
  • Studio, E.-d. (2021). The Exploded View Beyond Building. 04 12, 2022 tarihinde The Exploded View: https://theexplodedview.com/ adresinden alındı
  • Tognoli, J. (1987). Residential environmentals. New York: Handbook of Environmental Psychology. Üstün, Ç., & Özçiftçi, S. (2020). Covid-19 pandemisinin sosyal yaşam ve etik düzlem üzerine etkileri: bir değerlendirme çalışması. Anatolian Clinic the Journal of Medical Sciences, 143-147.
  • Vincent, J. F., Bogatyreva, O. A., Bogatyrev, N. R., Bowyer, A., & Pahl, A.-K. (2006). Biomimetics: its practice and theory. Journal of the Royal Society Interface, 471-482.
  • Yıldırım, S. (2020). Biyomimetrik yaklaşımlar bağlamında günümüzde yapı malzemesi kullanım ölçütleri. Master Tezi, Lisansüstü Programlar Enstitüsü, 55-83.
  • Yüksel, F. C. (2022). Pandemi ile değişen konut iç mekanını yeniden düşünmek. Online Journal of Art and Design, 91-99.
  • İnternet Kaynakları
  • URL 1 : < https://www.archdaily.com/931730/flat-house-practice-architecture-plus-material-cultures?ad_source=search&ad_medium=projects_tab > Erişim Tarihi: 16.05.2022
  • URL 2 : < https://www.yellowtrace.com.au/practice-architecture-flat-house-studio-zero-carbon-farmhouse-cambridgeshire/ > Erişim Tarihi: 16.05.2022
  • URL 3 : https://theexplodedview.com/materialbb/resilient-mycelium-flooring/ > Erişim Tarihi: 08.04.2022
  • URL 4 : < https://theexplodedview.com/materialbb/biolith/ > Erişim Tarihi: 08.04.2022
  • URL 5 : < https://theexplodedview.com/materialbb/mycelium-composites/> Erişim Tarihi: 08.04.2022
  • URL 6 : < https://theexplodedview.com/materialbb/acoustic-mycelium-tiles/> Erişim Tarihi: 08.04.2022
  • URL 7 : < https://theexplodedview.com/materialbb/fungal-coating/ > Erişim Tarihi: 08.04.2022
  • URL 8 : < https://theexplodedview.com/materialbb/smartty-air-clean/ > Erişim Tarihi: 08.04.2022
  • URL 9 : < https://theexplodedview.com/materialbb/ecolve/ > Erişim Tarihi: 08.04.2022
  • URL 10 : < https://theexplodedview.com/materialbb/eco-boards-and-ecoboard/ > Erişim Tarihi: 08.04.2022
  • URL 11 : < https://theexplodedview.com/materialbb/circular-matters-panel/ > Erişim Tarihi: 08.04.2022
  • URL 12 : < https://theexplodedview.com/materialbb/organoid-kornbluama/ > Erişim Tarihi: 08.04.2022
  • URL 13 : < https://theexplodedview.com/materialbb/totomoxtle/ > Erişim Tarihi: 08.04.2022
  • URL 14 : < https://theexplodedview.com/materialbb/marmoleum-boring-collection/ > Erişim Tarihi: 08.04.2022

Designing Interior Spaces Suitable for Post-Pandemic Period With Biomimetic Structural Materials

Year 2023, Volume: 8 Issue: 2, 299 - 326, 30.04.2023
https://doi.org/10.26835/my.1132854

Abstract

In the post-pandemic period, new lifestyles brought about significant changes along with new norms. While the epidemic affected most aspects of people's lives, it also changed the way spaces are used, and designers should create spaces that are a part of nature. Biomimicry is an innovative approach that mimics the models and strategies tested by nature over time, providing sustainable solutions to problems that people seek solutions for. With this approach, designs can be created with synthetic and environmentally friendly materials that unlock the secrets of natural materials. In the post-pandemic period, the relationship between humans and nature should be reconsidered in interior design and equipment due to people's detachment from nature. Natural and biomimetic structural materials and sustainability should be applied in all spaces. This study aims to change the process of creating newly designed interior spaces by selecting biomimetic structural materials based on the criteria for material use in the post-pandemic interior. The study determined the usage criteria of biomimetic structural materials in interior spaces through comparative analysis using multiple case analyses.

References

  • Ak, D. (2020, 02 23). Biyomalzeme Nedir? 05 12, 2022 tarihinde Medium: https://medium.com/@denizak/biyomalzeme-nedir-a3138e2869f6 adresinden alındı
  • Amerio, A., Brambilla, A., Morganti, A., Aguglia, A., Bianchi, D., Santi, F., Capolongo, S. (2020). COVID-19 lockdown: housing built environment’s effects on mental health. International Journal of Environmental Research and Public Health, 5973.
  • Ataç, A. (2019). Mimarlıkta biyomalzemelerin kullanımı: Sıkıştırılmış toprak blokların performansının mikorizal mantar kullanılarak geliştirilmesi. Master Tezi, Lisansüstü Programlar Enstitüsü, 9-35.
  • Attias, N. (2016). Biological Materials - Cabinets of Curiosities. D. Y. Van-Essen, B. Bauer, A. Blonder, & N. Lazarovich içinde, Life Object - Merging Biology & Architecture (s. 123-130). Montreal: Sternthal Books.
  • Baumeister, D. (2007). Biomimicry. (s. 8). Seattle, USA: Presentation at the University of Washington College of Architecture.
  • Benyus, J. (1998). Innovation Inspired by Nature: Biomimicry. New York: William Morrow & Co.
  • Bettaieb, D. M., & Alawad, A. A. (2018). Considerations of interior design in domestic space between multiplicity of the concepts and determination of constants. Art and Design Review, 48-60.
  • Cartwright, K. S., & Mitten, D. (2018). Quantifying the human-nature relationship: A user's guide. Research in Outdoor Education, 42-70.
  • Crook, L. (2019, 07 29). Recyclable house is built from cork blocks. 05 28, 2022 tarihinde Dezeen: https://www.dezeen.com/2019/07/29/cork-house-matthew-barnett-howland-sustainable-architecture/ adresinden alındı
  • Çebi, E. (2020). Covid-19 salgını döneminde "normal" ve" yeni normal" yaşam üzerine bir araştırma. Journal of International Social Research, 583-587.
  • Doremalen, V., Bushmaker, N., Morris, T., Holbrook, D., Gamble, M., Williamson, A., . . . Munster, V. (2020). Aerasol and surface stability of SARS-CoV-2 as compared with SARS-Cov-1. New England Journal of Medicine, 1564-1567.
  • El-Zeiny, R. M. (2012). Biomimicry as a problem solving methodology in interior architecture. Procedia - Social and Behavioral Sciences, 502-512.
  • Essen, Y. E., Bauer, B., Lazarovich, N., & Blonder, A. (2016). Life Object - Merging Biology and Architecture. Montreal: Sternthal Books.
  • Fairs, M. (2021, 07 9). Salt panels made using "only sun and wind" used to clad interior of Frank Gehry's Arles tower. 05 28, 2022 tarihinde Dezeen: https://www.dezeen.com/2021/07/09/carbon-salt-panels-interior-frank-gehrys-arles-tower-luma/ adresinden alındı
  • Femenias, P., & Geromel, F. (2019). Adaptable housing? A quantitative study of contemporary apartment layouts that have been rearranged by end-users. Journal of Housing and the Built Environment, 481-505.
  • Frearson, A. (2021, 10 22). Buildings could "definitely" be made exclusively from plant-based products says biomaterials CEO. 04 08, 2022 tarihinde Dezeen: https://www.dezeen.com/2021/10/22/biomaterials-biobased-creations-lucas-de-man-interview/ adresinden alındı
  • Frearson, A. (2021, 10 20). House built from 100 different plant-based materials unveiled at Dutch Design Week. 05 06, 2022 tarihinde Dezeen: https://www.dezeen.com/2021/10/20/biomaterials-house-dutch-design-week-biobased-creations/ adresinden alındı
  • Group, T. B. (2017, 05 16). MycoTree - Seoul Biennale for Architecture and Urbanism 2017. 06 8, 2022 tarihinde BRG Arch: https://block.arch.ethz.ch/brg/project/mycotree-seoul-architecture-biennale-2017 adresinden alındı
  • Hebel, D. E., & Heisel, F. (2017). Cultivated building materials industrialized natural resources for architecture and construction. Berlin, Germany: Birkhäuser.
  • Heisel, F., Schlesier, K., Lee, J., Rippmann, M., Saeidi, N., Javadian, A., . . . Block, P. (2017). Design of a load-bearing mycelium structure through informed structural engineering. The MycoTree at the 2017 Seoul Biennale of Architecture and Urbanism, 45-49.
  • Jacobsen, K. H. (2020). Will COVID-19 generate global preparedness? The Lancet, 1013.
  • Levy, N. (2020, 01 09). Hemp is used on interior and exterior of zero-carbon Flat House in Cambridgeshire. 05 18, 2022 tarihinde Dezeen: https://www.dezeen.com/2020/01/09/flat-house-hempcrete-practice-architecture-margent-farm/ adresinden alındı
  • Liu, K., & Jiang, L. (2011). Bio-inspired design of multiscale structures for function integration. Nano Today, 155-175.
  • Lodato, F. (2010). Bionics in action: the nature of invention. Technology and Innovation. Technology and Innovation, 1-100.
  • Makhno, S. (2022, 05 17). Life after coronavirus: how will the pandemic affect our homes? dezeen.com: https://www.dezeen.com/2020/03/25/life-after-coronavirus-impact-homes-design-architecture/ adresinden alındı
  • Mayr, E. (2014). Biyoloji Budur. İstanbul, Türkiye: Say Yayıncılık.
  • McKittrick, J. M., Chen, P., Tomolato, L., Novitskaya, E. E., Trim, M. W., Hirata, G. A., . . . Meyers, M. A. (2010). Energy absorbent natural materials and bioinspired design strategies: a review. Materials Science and Engineering: C, 331-342.
  • Oxman, N. (2010). Material-based design computation. Doctoral dissertation, Massachusetts Institute of Technology.
  • Pawlyn, M. (2011). Biomimicry in Architecture. Marylebone: RIBA Publishing.
  • Rassia, S. T. (2020). How architecture fails in conditions of crisis: a discussion on the value of interior design over the COVID-19 outbreak. SN Operations Araştırma Forumu (s. 1-3). SN Operations Araştırma Forumu.
  • Salama, A. (2020). Coronavirus questions that will not go away: interrogating urban and socio-spatial implications of COVID-19 measures. Emerald Open Research, Vol. 2.
  • Shamaileh, A. A. (2021). Reconsidering the criteria of the healthy house's interior design during crises: COVID-19 pandemic as an example. International Journal of Human Rights in Healthcare.
  • Spiegelhalter, T. (2010). Biomimicry and circular metabolism for the cities of the future. S. H. C. A. Brebbia içinde, The Sustainable City VI: Urban Regeneration and Sustainability (s. 215-226). Florida, USA: WIT Transactions on Ecology and the Environment.
  • Studio, E.-d. (2021). The Exploded View Beyond Building. 04 12, 2022 tarihinde The Exploded View: https://theexplodedview.com/ adresinden alındı
  • Tognoli, J. (1987). Residential environmentals. New York: Handbook of Environmental Psychology. Üstün, Ç., & Özçiftçi, S. (2020). Covid-19 pandemisinin sosyal yaşam ve etik düzlem üzerine etkileri: bir değerlendirme çalışması. Anatolian Clinic the Journal of Medical Sciences, 143-147.
  • Vincent, J. F., Bogatyreva, O. A., Bogatyrev, N. R., Bowyer, A., & Pahl, A.-K. (2006). Biomimetics: its practice and theory. Journal of the Royal Society Interface, 471-482.
  • Yıldırım, S. (2020). Biyomimetrik yaklaşımlar bağlamında günümüzde yapı malzemesi kullanım ölçütleri. Master Tezi, Lisansüstü Programlar Enstitüsü, 55-83.
  • Yüksel, F. C. (2022). Pandemi ile değişen konut iç mekanını yeniden düşünmek. Online Journal of Art and Design, 91-99.
  • İnternet Kaynakları
  • URL 1 : < https://www.archdaily.com/931730/flat-house-practice-architecture-plus-material-cultures?ad_source=search&ad_medium=projects_tab > Erişim Tarihi: 16.05.2022
  • URL 2 : < https://www.yellowtrace.com.au/practice-architecture-flat-house-studio-zero-carbon-farmhouse-cambridgeshire/ > Erişim Tarihi: 16.05.2022
  • URL 3 : https://theexplodedview.com/materialbb/resilient-mycelium-flooring/ > Erişim Tarihi: 08.04.2022
  • URL 4 : < https://theexplodedview.com/materialbb/biolith/ > Erişim Tarihi: 08.04.2022
  • URL 5 : < https://theexplodedview.com/materialbb/mycelium-composites/> Erişim Tarihi: 08.04.2022
  • URL 6 : < https://theexplodedview.com/materialbb/acoustic-mycelium-tiles/> Erişim Tarihi: 08.04.2022
  • URL 7 : < https://theexplodedview.com/materialbb/fungal-coating/ > Erişim Tarihi: 08.04.2022
  • URL 8 : < https://theexplodedview.com/materialbb/smartty-air-clean/ > Erişim Tarihi: 08.04.2022
  • URL 9 : < https://theexplodedview.com/materialbb/ecolve/ > Erişim Tarihi: 08.04.2022
  • URL 10 : < https://theexplodedview.com/materialbb/eco-boards-and-ecoboard/ > Erişim Tarihi: 08.04.2022
  • URL 11 : < https://theexplodedview.com/materialbb/circular-matters-panel/ > Erişim Tarihi: 08.04.2022
  • URL 12 : < https://theexplodedview.com/materialbb/organoid-kornbluama/ > Erişim Tarihi: 08.04.2022
  • URL 13 : < https://theexplodedview.com/materialbb/totomoxtle/ > Erişim Tarihi: 08.04.2022
  • URL 14 : < https://theexplodedview.com/materialbb/marmoleum-boring-collection/ > Erişim Tarihi: 08.04.2022
There are 53 citations in total.

Details

Primary Language Turkish
Subjects Architecture
Journal Section Makaleler
Authors

Kübra Yılmaz 0000-0002-5588-200X

Publication Date April 30, 2023
Published in Issue Year 2023 Volume: 8 Issue: 2

Cite

APA Yılmaz, K. (2023). Biyomimetrik Yapı Malzemeleri ile Post Pandemik Döneme Uygun İç Mekanlar Tasarlanması. Mimarlık Ve Yaşam, 8(2), 299-326. https://doi.org/10.26835/my.1132854