THE USE of BLACK COLORANT OBTAINED from DOMESTIC SOURCES in LEADED and BORON GLAZES
Year 2021,
Issue: 047, 269 - 280, 31.12.2021
Hale Yıldızay
,
Fikret Aydoğdu
Abstract
In this study, the usability of the black colorant obtained by mixing of MHP composite produced from laterittic nickel, chromite and magnetite ores in certain proportions, in boron and leaded glazes was investigated. Prepared black colorant was added to leaded and boron glaze in varying proportions. The color properties of the colored glazes were measured by spectrophotometer and their values are expressed as “L * a * b *”. It has been determined that the color values of this colorant used in leaded and boron glazes are quite similar to commercially used black pigments. As a result, black colorants with high added value were produced with the use of domestic resources and positive results were obtained in their use in leaded and boron glazes.
Supporting Institution
KÜTHAYA DUMLUPINAR ÜNİVERİSTESİ
Thanks
This study was financially supported by Kütahya Dumlupınar University Scientific Research Projects Co-operative Center with project no. 2017 – 69. We would like to thank our Scientific Research Projects Co-operator Ship Center, which provided financial support to the project.
References
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- [12] http://www.metanikel.com.tr
Year 2021,
Issue: 047, 269 - 280, 31.12.2021
Hale Yıldızay
,
Fikret Aydoğdu
References
- [1] Arcasoy, A., (1983)., Seramik Teknolojisi. M.Ü.G.S.F. Seramik, İstanbul., ASD Yay., No:2, 13-14.
- [2] Eppler, R.A., (2000)., Glazes and Glass Coatings, Am. Ceram. Soc., Westerville, 130-135.
- [3] Costa, G., Della, V.P., Ribeiro, M.J., Oliveria, A.P.N., Monros, G., and Labrincha, J.A. (2008). Synthesis of black ceramic pigments from secondary raw materials. Dyes and Pigments, Vol.77, pp.137–144.
- [4] Tanisan, B., and Turan, S. (2011). Black ceramic pigments for porcelain tile bodies produced with chromite ores and iron oxide waste. Journal of Ceramic Processing Research, Vol.12, 462-467.
- [5] Ozel, E., Kücük, I., and Turan, S., (2002). Synthesis of an iron-chromium ceramic pigment by using limonite and chromite mixtures. Key Eng. Mater., Vol.206-213, 1227-123.
- [6] Yang, Y.G., Xu, J.H., Cai, B., Wang, Q.C., Xiu, D.P., Zhao, Z.B., Sun, Q. Z., and Cao, S. L. (2013). Synthesis and applications of black ceramic from recycled industrial wastes. Advances in Applied Ceramics, 112, 146-148.
- [7] Tanisan, B., and Turan, S. (2012). Synthesis of Fe-Mn black pigments by using hematite waste and manganese ore mixtures. Trans. Indian Ceram. Soc. Vol.71(1),17-22.
- [8] Calbo, J., Sorli, S., Llusar, M., Tena M.A., and Monros, G., (2004). Minimisation of toxicity in nickel ferrite black pigment. British Ceramic Transactions, Vol.103, 3-9.
- [9] Özel E., and Turan S., (2003). Production and characterisation of iron-chromium pigments and their interactions with transparent glazes. Journal of the European Ceramic Society Vol.23, 2097-2104.
- [10] Dondi, M., Zanelli, C., Ardit, M., Cruciani, G., Mantovani, L., Tribaudino, M., and Andreozzi, G. B. (2013). Ni-free, black ceramic pigments based on Co—Cr—Fe—Mn spinels: a reappraisal of crystal structure, color and technological behaviour, Ceramic Int. 39 (8), 9533–9547.
- [11] Schabbach, L.M., Bondioli, F., Ferrari, A.M., Petter, C.O., and Fredel, M.C. (2009). Colour in ceramic glazes: Efficiency of the Kubelka–Munk model in glazes with a black pigment and opacifier, Journal of the European Ceramic Society, Vol. 29, 2685-2690.
- [12] http://www.metanikel.com.tr