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INSPIRATION FROM NATURE: SYNTHESIS OF BIOMIMICRY AND CERAMIC ART

Yıl 2024, Cilt: 14 Sayı: 4, 887 - 901, 01.10.2024
https://doi.org/10.7456/tojdac.1511526

Öz

Throughout history, nature has been an important source of inspiration for humanity with its rich diversity and resources. The wide spectrum offered by nature, from vegetation to animal life, from climatic conditions to geographical features, has influenced people in many fields, from agriculture to technology, from art to science. Ceramics is an art form where people have been expressing their creativity by processing natural materials for thousands of years. While artists create their forms, colors and textures by taking inspiration from nature, they have created unique works by taking advantage of the unique properties of clay. While biomimicry represents the idea of taking inspiration from the structures, functions and processes of organisms in nature and making sense of the design principles in nature, applying these principles to the fields of art and technology, ceramic art emphasizes the aesthetic and functional properties of natural forms and processes. The synthesis of biomimicry and ceramic art pushes the boundaries of both art and science, resulting in new discoveries and creative designs. This synthesis allows people to produce environmentally friendly, aesthetic and sustainable products.

Kaynakça

  • Abdel-Rahman, W. S. M. (2020). Thermal performance optimization of parametric building envelope based on bio-mimetic inspiration. Ain Shams Engineering Journal, 1-10.
  • Bartoli, G., Borsani, A., Borri, C., Martelli, A., Procino, L., Vezzosi, A. (2009). Leonardo, The Wind And The Flying Sphere. EACWE 5, 225-236.
  • Benyus, J. M. (2002). Biomimicry: Innovation Inspired by Nature. Harper Collins Publishers.
  • Buyruk, M. (t.y.). Kalila wa Dimna. https://melisbuyruk.com/kalila-wa-dimna/
  • Buyruk, M. (t.y.). Sabırla Beklenen Büyülü Şeyler Serisinden. https://melisbuyruk.com/sabirla-beklenen-buyulu-seyler/
  • Buyruk, M. (t.y.). Hybridity Series. https://melisbuyruk.com/hybridity-series/
  • Couceiro, M. S., Ferreira, N. M. F., Machado, J. A. T. (2009). Fractional-Order Control of a Robotic Bird. IDETC/CIE 2009, 1-7.
  • Çoban, O. (2023). The Studio - Melis Buyruk. https://en.studiomercado.com/post/the-studio-melis-buyruk-dyson
  • Genç, M. (2013). Doğa, Sanat ve Biyomimetik Bilim (Tez No. 346801) [Sanatta Yeterlik Eseri Çalışması Raporu, Hacettepe Üniversitesi Güzel Sanatlar Enstitüsü Seramik Anasanat Dalı, Ulusal Tez Merkezi].
  • Gregersen, M. M. (2011). Any Road Will Take You There. Ceramic Review, 251, 40-43.
  • Gregersen, M. M. (2020). Mette Maya Gregersen: Nature works. Ceramics Now, https://www.ceramicsnow.org/artworks/mette-maya-gregersen-nature-works/
  • Gregersen, M. M. (t.y.). Repeated Layers of Porcelain Slip. https://www.mettemaya.com/work/nature
  • Gregersen, M. M. (t.y.). The Resting State Originates in Movement. https://www.mettemaya.com/work/nature
  • Gregersen, M. M. (t.y.). The Waves. https://www.mettemaya.com/work/makingwaves
  • Gregersen, M. M. (t.y.). Making Waves. https://www.mettemaya.com/work/makingwaves
  • Gruber, P., Engelhardt, S., Siman, K., Stachew, E., Perusek, G. (2022). Biomimetic Course Design Exploration For Improved NASA Zero Gravity Exercise Equipment. Biomimicry for Aerospace Technologies and Applications, 187-209.
  • Kellert, S. R., Calabrese, E. F. (2015). The Practice of Biophilic Design. www.biophilic-design.com
  • Kennedy, E., Fecheyr-Lippens, D., Hsiung, B. K., Niewiarowski, P. H., Kolodziej, M. (2015). Biomimicry: A Path to Sustainable Innovation. Massachusetts Institute of Technology, Design Issues, 21 (3), 66-73.
  • Makram, A., Abou Of, T. (2019). Biomimetic and Biophilic Design as an Approach to Innovative Sustainable Architectural Design. AR-UP 2019: Architecture & Urbanism. A Smart Outlook, 509-518. Mattison, C. (t.y.). Confluence. https://courtneymattison.com/confluence
  • Mattison, C. (t.y.). Confluence, detail. https://courtneymattison.com/confluence
  • Mattison, C. (t.y.). Malum Geminos. https://courtneymattison.com/malum-geminos
  • Mattison, C. (t.y.). Artist Statement. https://courtneymattison.com/about
  • McCurdy, J. (2013). Artist’s Statement. https://jennifermccurdy.com/pdf/JenniferMcCurdyStatement.pdf
  • McCurdy, J. (t.y.). Gilded Water Lily, https://jennifermccurdy.com/currentwork.shtml
  • McCurdy, J. (t.y.). Lotus Nest, https://jennifermccurdy.com/currentwork.shtml
  • McCurdy, J. (t.y.). Tsunami Vessel, https://jennifermccurdy.com/currentwork.shtml
  • O'Donovan, N. (t.y.). Teasel Series. https://nualaodonovanartist.com/sculptural-work/
  • O'Donovan, N. (t.y.). Realising Form. https://nualaodonovanartist.com/exhibition-images/
  • O'Donovan, N. (t.y.). Coral-Skeletal. https://nualaodonovanartist.com/
  • O'Donovan, N. (t.y.). Artist Statement. https://nualaodonovanartist.com/
  • Pathak, S. (2019). Biomimicry: (Innovation Inspired by Nature). International Journal of New Technology and Research (IJNTR), 5 (3), 34-38.
  • Romecki, D. (t.y.). Super Storm. https://www.deniseromecki.com/portfolios/featured/superstorm/
  • Romecki, D. (t.y.). Interconnected. https://www.deniseromecki.com/
  • Romecki, D. (t.y.). Surf's Up. https://www.deniseromecki.com/portfolios/waves/
  • Romecki, D. (t.y.). About. https://www.deniseromecki.com/about-1/
  • Unsworth, C. K., Shyam, V. (2022). Toward Systematic Nature -Inspired Problem- Solving For Aerospace Applications And Beyond. Biomimicry for Aerospace Technologies and Applications, 63-79.
  • Zari, M. P. (2018). Regenerative Urban Design and Ecosystem Biomimicry. Routledge.

DOĞADAN İLHAM: BİYOMİMİKRİ VE SERAMİK SANATININ SENTEZİ

Yıl 2024, Cilt: 14 Sayı: 4, 887 - 901, 01.10.2024
https://doi.org/10.7456/tojdac.1511526

Öz

Doğa, tarih boyunca zengin çeşitliliğiyle ve kaynaklarıyla insanlık için önemli bir ilham kaynağı olmuştur. Bitki örtüsünden hayvanların yaşamına, iklim koşullarından coğrafi özelliklere kadar doğanın sunduğu geniş yelpaze, insanları tarımdan teknolojiye, sanattan bilime kadar birçok alanda etkilemiştir. Seramik, binlerce yıldır insanların doğal malzemeleri işleyerek yaratıcılıklarını ifade ettiği bir sanat formudur. Sanatçılar, doğadan ilham alarak formlarını, renklerini ve dokularını oluştururken, kilin kendine özgü özelliklerinden yararlanarak benzersiz eserler ortaya koymuşlardır. Biyomimikri, doğadaki organizmaların yapıları, işlevleri ve süreçlerinden ilham alarak ve doğadaki tasarım prensiplerini anlamlayarak bu prensipleri sanat ve teknoloji alanlarına uygulama fikrini temsil ederken, seramik sanatı doğal formların ve süreçlerin estetik ve işlevsel özelliklerini sunmaktadır. Biyomimikri ve seramik sanatının sentezi hem sanatın hem de bilimin sınırlarını zorlayarak yeni keşiflerin ve yaratıcı tasarımların ortaya çıkmasını sağlar. Bu sentez, insanların çevreye duyarlı, estetik ve sürdürülebilir ürünler üretmelerine olanak tanır.

Kaynakça

  • Abdel-Rahman, W. S. M. (2020). Thermal performance optimization of parametric building envelope based on bio-mimetic inspiration. Ain Shams Engineering Journal, 1-10.
  • Bartoli, G., Borsani, A., Borri, C., Martelli, A., Procino, L., Vezzosi, A. (2009). Leonardo, The Wind And The Flying Sphere. EACWE 5, 225-236.
  • Benyus, J. M. (2002). Biomimicry: Innovation Inspired by Nature. Harper Collins Publishers.
  • Buyruk, M. (t.y.). Kalila wa Dimna. https://melisbuyruk.com/kalila-wa-dimna/
  • Buyruk, M. (t.y.). Sabırla Beklenen Büyülü Şeyler Serisinden. https://melisbuyruk.com/sabirla-beklenen-buyulu-seyler/
  • Buyruk, M. (t.y.). Hybridity Series. https://melisbuyruk.com/hybridity-series/
  • Couceiro, M. S., Ferreira, N. M. F., Machado, J. A. T. (2009). Fractional-Order Control of a Robotic Bird. IDETC/CIE 2009, 1-7.
  • Çoban, O. (2023). The Studio - Melis Buyruk. https://en.studiomercado.com/post/the-studio-melis-buyruk-dyson
  • Genç, M. (2013). Doğa, Sanat ve Biyomimetik Bilim (Tez No. 346801) [Sanatta Yeterlik Eseri Çalışması Raporu, Hacettepe Üniversitesi Güzel Sanatlar Enstitüsü Seramik Anasanat Dalı, Ulusal Tez Merkezi].
  • Gregersen, M. M. (2011). Any Road Will Take You There. Ceramic Review, 251, 40-43.
  • Gregersen, M. M. (2020). Mette Maya Gregersen: Nature works. Ceramics Now, https://www.ceramicsnow.org/artworks/mette-maya-gregersen-nature-works/
  • Gregersen, M. M. (t.y.). Repeated Layers of Porcelain Slip. https://www.mettemaya.com/work/nature
  • Gregersen, M. M. (t.y.). The Resting State Originates in Movement. https://www.mettemaya.com/work/nature
  • Gregersen, M. M. (t.y.). The Waves. https://www.mettemaya.com/work/makingwaves
  • Gregersen, M. M. (t.y.). Making Waves. https://www.mettemaya.com/work/makingwaves
  • Gruber, P., Engelhardt, S., Siman, K., Stachew, E., Perusek, G. (2022). Biomimetic Course Design Exploration For Improved NASA Zero Gravity Exercise Equipment. Biomimicry for Aerospace Technologies and Applications, 187-209.
  • Kellert, S. R., Calabrese, E. F. (2015). The Practice of Biophilic Design. www.biophilic-design.com
  • Kennedy, E., Fecheyr-Lippens, D., Hsiung, B. K., Niewiarowski, P. H., Kolodziej, M. (2015). Biomimicry: A Path to Sustainable Innovation. Massachusetts Institute of Technology, Design Issues, 21 (3), 66-73.
  • Makram, A., Abou Of, T. (2019). Biomimetic and Biophilic Design as an Approach to Innovative Sustainable Architectural Design. AR-UP 2019: Architecture & Urbanism. A Smart Outlook, 509-518. Mattison, C. (t.y.). Confluence. https://courtneymattison.com/confluence
  • Mattison, C. (t.y.). Confluence, detail. https://courtneymattison.com/confluence
  • Mattison, C. (t.y.). Malum Geminos. https://courtneymattison.com/malum-geminos
  • Mattison, C. (t.y.). Artist Statement. https://courtneymattison.com/about
  • McCurdy, J. (2013). Artist’s Statement. https://jennifermccurdy.com/pdf/JenniferMcCurdyStatement.pdf
  • McCurdy, J. (t.y.). Gilded Water Lily, https://jennifermccurdy.com/currentwork.shtml
  • McCurdy, J. (t.y.). Lotus Nest, https://jennifermccurdy.com/currentwork.shtml
  • McCurdy, J. (t.y.). Tsunami Vessel, https://jennifermccurdy.com/currentwork.shtml
  • O'Donovan, N. (t.y.). Teasel Series. https://nualaodonovanartist.com/sculptural-work/
  • O'Donovan, N. (t.y.). Realising Form. https://nualaodonovanartist.com/exhibition-images/
  • O'Donovan, N. (t.y.). Coral-Skeletal. https://nualaodonovanartist.com/
  • O'Donovan, N. (t.y.). Artist Statement. https://nualaodonovanartist.com/
  • Pathak, S. (2019). Biomimicry: (Innovation Inspired by Nature). International Journal of New Technology and Research (IJNTR), 5 (3), 34-38.
  • Romecki, D. (t.y.). Super Storm. https://www.deniseromecki.com/portfolios/featured/superstorm/
  • Romecki, D. (t.y.). Interconnected. https://www.deniseromecki.com/
  • Romecki, D. (t.y.). Surf's Up. https://www.deniseromecki.com/portfolios/waves/
  • Romecki, D. (t.y.). About. https://www.deniseromecki.com/about-1/
  • Unsworth, C. K., Shyam, V. (2022). Toward Systematic Nature -Inspired Problem- Solving For Aerospace Applications And Beyond. Biomimicry for Aerospace Technologies and Applications, 63-79.
  • Zari, M. P. (2018). Regenerative Urban Design and Ecosystem Biomimicry. Routledge.
Toplam 37 adet kaynakça vardır.

Ayrıntılar

Birincil Dil Türkçe
Konular Seramik Tasarımı
Bölüm ARAŞTIRMA MAKALELERİ
Yazarlar

Onurcan Erdal 0000-0003-0027-8080

Erken Görünüm Tarihi 21 Eylül 2024
Yayımlanma Tarihi 1 Ekim 2024
Gönderilme Tarihi 6 Temmuz 2024
Kabul Tarihi 18 Eylül 2024
Yayımlandığı Sayı Yıl 2024 Cilt: 14 Sayı: 4

Kaynak Göster

APA Erdal, O. (2024). DOĞADAN İLHAM: BİYOMİMİKRİ VE SERAMİK SANATININ SENTEZİ. Turkish Online Journal of Design Art and Communication, 14(4), 887-901. https://doi.org/10.7456/tojdac.1511526


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