Abstract
Son yıllarda, yüksek kalite ve
fonksiyonel özelliklerinin yanı sıra estetik bir görünüme sahip seramik
karoların üretimi gittikçe önem kazanmaktadır. Ink-jet
dijital baskı teknolojisinin seramik sektörüne uyarlanmasıyla seramik ürünlerin
dekoratif ve aplikasyon özelliklerinde büyük gelişme kaydedilmiş ve bu
ürünlerin katma değerine yansımıştır. Özellikle seramik yüzey tasarımlarının
uygulama sürecini kolaylaştıran bu teknoloji, doğadan ilham alınarak yapılan
taş, mermer ve ahşap görünümlerinin aslına uygun birebir uygulanmasına olanak
sağlamıştır. Tamamen dijital ve otomasyona uygun
olan bu teknoloji, kontrollü olarak oluşturulan mürekkep damlacıkların bir
baskı kafası yardımıyla numune üzerine püskürtülmesi sonucu istenilen desenin
oluşturulmasına dayanmaktadır.
Araştırmanın amacı ink-jet
dijital baskı teknolojinin seramik kaplama
endüstrisinde kullanımını araştırmak ve teknolojideki değişimleri izlemektir.
Araştırmanın
kapsamı ve konusu ink-jet baskı teknolojisinin seramik kaplama endüstrisinde
kullanımı ile sınırlandırılmıştır. Ayrıca araştırmada doğadaki formlardan
farklı olarak herhangi bir sanatçının eserlerinden yola çıkarak deneysel
seramik karo tasarımlarının nasıl yapılabileceği araştırılmıştır. Bu kapsamda
seramik kaplama gibi uygulama alanları oluşturularak sanatçı Şirin Koçak
eserlerinin renk, yüzey ve kavramsal olguları analiz edilmiş ve elde edilen
bulgular açıklanmıştır.
İnk-jet
teknolojisi günümüzde seramik kaplama üreticileri tarafından kullanılan
birincil tasarım baskı tekniği olmasına rağmen, bu teknolojiyle uyumlu
tasarımların hazırlanma süreci hakkında yeterli bilgi bulunmamaktadır. Bu
makale, teknolojideki son gelişmeleri irdelemekte ve örnek seramik karo yüzey
tasarımlarını geliştirme sürecini içermektedir.
References
- Berto, A. M. (2007). Ceramic tiles: above and beyond traditional applications. Journal of the European Ceramic Societ, 27(2-3), 1607-1613.
- Dondi, M., Blosi, M., Gardini, D., & Zanelli, C. (2014). Ceramic pigments for digital decoration inks: an overview. CFI-CeramicForumInt Castellón, Spain, 1–12.
- Dondi, M., Blosi, M., Gardini, D., & Zanelli, C. (2012). Ceramic Pigments for Digital Decoration Inks: an overview. Ceramic Forum International, 89(8-9), 59-64.
- Elguezabal, A., Aguirre, M, R., Saenz, T., Ruiz P., & Bermal, M. (2017). Synthesis of CoAl2O4/Al2O3 nanoparticles for ceramic blue pigments. Ceramics International, 43, 15254-15257.
- Gardini, D., Dondi, M., Costa, A., Matteucci, F., Blosi, M., Galassi. C., Baldi, G., & Cinotti, E. (2008). Nano-sized ceramic inks for drop-on-demand ink-jet printing in quadrichromy. Journal of Nanoscience And Nanotechnology, 8(4), 1979-1988.
- Hutchings, I. (2010). Ink-jet printing for the decoration of ceramic tiles: technology and opportunities. Actas Qualicer, 1–16.
- Ferrari, G., & Zannini, P. (2016). Thermal behavior of vehicles and digital inks for inkjet decoration of ceramic tiles. Thermochimica Acta, 639, 41–46.
- Jang, D., Kim, D., & Moon, J. (2009). Influence of fluid physical properties on inkjet printability. Langmuir, 25, 26-35.
- Jianfeng, W., Kun, L., Xiaohong, X., Jiahui, Y., Xiaoxue, L., & Jiangzhou., T. (2018). In situ synthesis of spherical CdS1-xSex red pigment used for ceramic ink-jet printing. Materials Chemistry and Physics, 203, 193-201.
- Kömürcüoğlu, T. N., & Altaş, N. E. (2003). Tasarım Sürecinde Kavram. İTÜ Dergisi/a Mimarlık, Planlama, Tasarım, 2(1).
- http://www.itudergi.itu.edu.tr/index.php/itudergisi_a/article/viewFile/987/892 adresinden erişildi
- Lee, J. H., Kweon, W. S., Cho, W. S., Kim, J. H., Hwang, K. T., Hwang, H. J., & Han, K. S. (2018). Formulation and characterization of black ceramic ink for a digital ink-jet printing. Ceramics International, 44, 14151–14157
- Magdassi, S. (2010). The chemistry of inkjet inks. World Scientific Publications.
- Montorsi, M., Mugoni, C., Passalacqua, A., Annovic, A., Maranic, F., Fossac, L., Capitani, R., & Manfredini, T. (2016). Improvement of color quality and reduction of defects in the ink jet-printing technology for ceramic tiles production: A design of experiments. Ceramics International, 42, 1459–1469.
- Özgündoğdu, A. F. C. (2018). The thing released into the water: Sirin Kocak's ceramics. Ceramics Art and Perception, 109, 62 – 67.
- Pan, Z., Wang, Y., Haung, H., Ling, Z., Dai, Y., & Ke, S. (2015). Recent development on preparation of ceramic inks in ink-jet printing. Ceramics International, 41, 12515–12528.
- Singh, M., Haverinen, H. M., Dhagat, P., & Jabbour, G. E. (2010). Inkjet printing - process and its applications. Advanced Materials, 22, 673–685.
- Watanabe, O., Hibino, T., & Sakakibara, M. (2012). Development of an aqueous ink-jet printing system for ceramic tiles. Ceramic Forum International, 89(5), 127-127.
- TDK. (2018). http://www.tdk.gov.tr adresinden erişildi.
Abstract
In recent years, the production of ceramic tiles which have aesthetic properties, in addition to their high quality and functionality, have increasingly gained importance. With the adaptation of the InkJet digital printing technology to the ceramics industry, the decorative and applicational properties have significantly improved, reflecting on the added value of these products. This technology which particularly facilitates the application of ceramic surface designs, has enabled the direct implementation of stone, marble, and wood visuals inspired by nature. This entirely digital technology, suitable for automation, is based on forming the desired design by spraying ink droplets formed in a controlled manner on the sample with the aid of a nozzle.
The aim of the research is to monitor the changes and investigate the use of InkJet digital printing technologies in the ceramic coating industry.
The scope and content of the research is limited to the use of the InkJet printing technology in the ceramic coating industry. In addition, distinct from the forms in nature, the study has investigated the manner in which experimental ceramic tile designs can be made based on the works of any artist. Within this context, by forming applicational areas such as ceramic coating, the works of artist Şirin Koçak have been analysed based on colour, surface, and conceptual features, and the findings have been explained.
Even though InkJet technology is the primary design printing technique used by ceramic coating manufacturers today, there is not enough information regarding the preparation process of designs compatible with this technology. This paper examines the latest developments in the technology and covers the process of developing sample ceramic tile designs.
References
- Berto, A. M. (2007). Ceramic tiles: above and beyond traditional applications. Journal of the European Ceramic Societ, 27(2-3), 1607-1613.
- Dondi, M., Blosi, M., Gardini, D., & Zanelli, C. (2014). Ceramic pigments for digital decoration inks: an overview. CFI-CeramicForumInt Castellón, Spain, 1–12.
- Dondi, M., Blosi, M., Gardini, D., & Zanelli, C. (2012). Ceramic Pigments for Digital Decoration Inks: an overview. Ceramic Forum International, 89(8-9), 59-64.
- Elguezabal, A., Aguirre, M, R., Saenz, T., Ruiz P., & Bermal, M. (2017). Synthesis of CoAl2O4/Al2O3 nanoparticles for ceramic blue pigments. Ceramics International, 43, 15254-15257.
- Gardini, D., Dondi, M., Costa, A., Matteucci, F., Blosi, M., Galassi. C., Baldi, G., & Cinotti, E. (2008). Nano-sized ceramic inks for drop-on-demand ink-jet printing in quadrichromy. Journal of Nanoscience And Nanotechnology, 8(4), 1979-1988.
- Hutchings, I. (2010). Ink-jet printing for the decoration of ceramic tiles: technology and opportunities. Actas Qualicer, 1–16.
- Ferrari, G., & Zannini, P. (2016). Thermal behavior of vehicles and digital inks for inkjet decoration of ceramic tiles. Thermochimica Acta, 639, 41–46.
- Jang, D., Kim, D., & Moon, J. (2009). Influence of fluid physical properties on inkjet printability. Langmuir, 25, 26-35.
- Jianfeng, W., Kun, L., Xiaohong, X., Jiahui, Y., Xiaoxue, L., & Jiangzhou., T. (2018). In situ synthesis of spherical CdS1-xSex red pigment used for ceramic ink-jet printing. Materials Chemistry and Physics, 203, 193-201.
- Kömürcüoğlu, T. N., & Altaş, N. E. (2003). Tasarım Sürecinde Kavram. İTÜ Dergisi/a Mimarlık, Planlama, Tasarım, 2(1).
- http://www.itudergi.itu.edu.tr/index.php/itudergisi_a/article/viewFile/987/892 adresinden erişildi
- Lee, J. H., Kweon, W. S., Cho, W. S., Kim, J. H., Hwang, K. T., Hwang, H. J., & Han, K. S. (2018). Formulation and characterization of black ceramic ink for a digital ink-jet printing. Ceramics International, 44, 14151–14157
- Magdassi, S. (2010). The chemistry of inkjet inks. World Scientific Publications.
- Montorsi, M., Mugoni, C., Passalacqua, A., Annovic, A., Maranic, F., Fossac, L., Capitani, R., & Manfredini, T. (2016). Improvement of color quality and reduction of defects in the ink jet-printing technology for ceramic tiles production: A design of experiments. Ceramics International, 42, 1459–1469.
- Özgündoğdu, A. F. C. (2018). The thing released into the water: Sirin Kocak's ceramics. Ceramics Art and Perception, 109, 62 – 67.
- Pan, Z., Wang, Y., Haung, H., Ling, Z., Dai, Y., & Ke, S. (2015). Recent development on preparation of ceramic inks in ink-jet printing. Ceramics International, 41, 12515–12528.
- Singh, M., Haverinen, H. M., Dhagat, P., & Jabbour, G. E. (2010). Inkjet printing - process and its applications. Advanced Materials, 22, 673–685.
- Watanabe, O., Hibino, T., & Sakakibara, M. (2012). Development of an aqueous ink-jet printing system for ceramic tiles. Ceramic Forum International, 89(5), 127-127.
- TDK. (2018). http://www.tdk.gov.tr adresinden erişildi.
Details
| Primary Language | Turkish |
|---|---|
| Journal Section | Articles |
| Authors | |
| Publication Date | March 13, 2019 |
| Published in Issue | Year 2019 In Memeory of Ahmet Yakupoğlu City, Art and Desing Special Issue |
Cite
Dergimiz EBSCOhost, ULAKBİM/Sosyal Bilimler Veri Tabanında, SOBİAD ve Türk Eğitim İndeksi'nde yer alan uluslararası hakemli bir dergidir.