Development of white titanic enamel coatings with reduced burning temperature

Authors

DOI:

https://doi.org/10.15587/2312-8372.2015.47704

Keywords:

white coating, low-phosphorus enamel, whiteness, yellowness, barium oxide, lithium oxide

Abstract

The work contains research of the influence of modifying additives Li2O and ВаО on the properties of frits and optical characteristics of white titanium low-fluoric enamel coatings.

Optimal concentration of research oxides (0,5 mas. % Li2O and 0,75 mas. % ВаО) is determined in composition of enamel coatings. White low-fluoric titanic glass coatings are obtained with specified optical characteristics: diffuse reflectance (DR) – 78 %, yellowness (G) – 4,57 %, regular reflectance (RR) – 75 %.

Softening temperature of glass enamel being lower than domestic industrial analog is established by the method of differential and thermal analysis. Prevailing crystalline phase represented foremost in anatase form of titanium dioxide is using roentgen and phase analysis.

The developed enamel glass coatings with specified optical parameters are more fusible compared with industrial analogs and meet the requirements of standards for internal and external enamel coatings and can be recommended for industrial testing with low-temperature short-term mode of burning.

Author Biographies

Ольга Петрівна Рижова, Ukrainian State University of Chemical Technology, Gagarina 8, Dnepropetrovsk, Ukraine, 49005

Candidate of Technical Science, Associate Professor

Department of chemical technology of ceramics and glass

Максим Андрійович Хохлов, Ukrainian State University of Chemical Technology, Gagarina 8, Dnepropetrovsk, Ukraine, 49005

PhD student

Department of chemical technology of ceramics and glass

Раїса Іванівна Кислична, Ukrainian State University of Chemical Technology, Gagarina 8, Dnepropetrovsk, Ukraine, 49005

Candidate of Technical Science, Researcher

Department of chemical technology of ceramics and glass

References

  1. Sarrazy, K., Aronica, А., Leseur, A. (2015). Low fire enamels for new pre-primed steels. 23rd International Enamellers Congress. Florence, 88–100.
  2. Helmold, P., Ryodiker, B., Hartmann, K. (2001). Sozdanie novoy beloy emali bez ftora. 19-y mezhdunarodnyiy kongress po emalirovaniyu. Venetsiya, 122–130.
  3. Liang, M., Hanning, X., Liyuan, Z. (2012). Microstructure and Properties of an Enamel Containing Nano-sized Crystals of Titanium Dioxide. 22nd International Enamellers Congress. Cologne, 1–7.
  4. Bragina, L. L., Zubehina, A. P., Beliy, Y. I., Guziy, V. A., Kazanov, Yu. K, Ryshenko, M. I., Sobol, N. P., Yatsenko, E. A. (2003). Tehnologiya emali i zaschitnyih pokryitiy. Harkov: NTU «HPI»; Novocherkassk: YuRGTU (NPI), 484.
  5. Pagliuca, S., Faust, W. D. (2011). Porcelain (Vitreous) Enamels and Industrial Enamelling Processes. The Preparation, Application and Properties of Enamel. Ed. 3. Tipografia Commercialesrl Via Vittorino da Feltre, Mantova, Italy, 900.
  6. Lips, K., Jacobs, D., Nyssen, N. (2015). Food Contact materials in Europe: a challenge for the enamel industry. 23rd International Enamellers Congress. Florence, 209–221.
  7. Platov, Yu. T., Platova, R. A., Sorokin, D. A. (2009). Kolorimetricheskaya identifikatsiya farfora po vidu materiala. Steklo i keramika, 4, 10–13.
  8. Platov, Yu. T., Platova, R. A., Sorokin, D. A. (2008). Otsenka beliznyi farfora. Steklo i keramika, 8, 23–27.
  9. Platov, Yu. T., Platova, R. A. (2013). Instrumentalnaya spetsifika tsiyatsvetovyih harakteristik stroitelnyih materialov. Stroitelnyie materialyi, 4, 66–72.
  10. Komporator tsveta KTs-3. (1990). Tehnicheskoe opisanie i instruktsiya po ekspluatatsii. M.: VNII poligrafiya, 68.
  11. Artamonova, M. V., Aslanova, M. S., Buzhinskiy, I. M., Zhuravlev, G. I., Keshishyan, T. N., Kuzyak, V. A, Kucherov, O. F., Pavlushkin, N. M., Pryanishnikov, V. P., Rodionov, A. I., Sarkisov, P. D., Silvestrovich, S. I., Solomin, N. M., Ushakov, D. F, Halilev, V. D., Hodakovskaya, R. Ya. (1983). Himicheskaya tehnologiya stekla i sitallov. M.: Stroyizdat, 432.
  12. Hodakovskaya, R. Ya. (1978). Himiya titansoderzhaschih stekol i sitallov. M.: Himiya, 288.

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Published

2015-07-23

How to Cite

Рижова, О. П., Хохлов, М. А., & Кислична, Р. І. (2015). Development of white titanic enamel coatings with reduced burning temperature. Technology Audit and Production Reserves, 4(4(24), 25–30. https://doi.org/10.15587/2312-8372.2015.47704

Issue

Vol. 4 No. 4(24) (2015): Technologies of food, light and chemical industry

Section

Technologies of food, light and chemical industry

License

Copyright (c) 2016 Ольга Петрівна Рижова, Максим Андрійович Хохлов, Раїса Іванівна Кислична

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