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Development of engobe coating compositions for clinker and facing bricks

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
This article deals with the basic principles of developing engobe compositions for facing and clinker ceramic bricks. The microstructure features of ceramic bricks have been studied, which must be considered when choosing the engobe composition and engobe products’ technology. The expediency of using alkaline and substandard kaolins as the main raw material, which improves the conditions for sintering ceramic coatings by applying the single annealing technology of construction ceramics, has been studied. Due to its higher annealing reactivity, compared to traditional clay materials, the experimental raw material in the engobe composition improves the adhesion of the coating to the ceramic base and increases the strength of the decorative and protective layer.
Rocznik
Tom
Strony
215--222
Opis fizyczny
Bibliogr. 8 poz., rys., tab.
Twórcy
  • Ukrainian State University of Chemical Engineering, Ukraine
  • Sumy National Agrarian University, Ukraine
  • Ukrainian State University of Chemical Engineering, Ukraine
Bibliografia
  • 1.Becker, E., Jiusti, J., Minatto, F.D., Delavi, D.G.G., Montedo, O.R.K.  Noni Jr., A. (2017) Use of mechanically-activated kaolin to replace ball clay in engobe for a ceramic tile. Cerâmica, 63, 295.
  • 2.Esposito, L., Salem, A., Tucci, A., Gualtieri, A.  Jazayeri, S.H. (2005) The use of nepheline-syenite in a body mix for porcelain stoneware tiles. Ceramics International, 31, 2, 233.
  • 3.Fedorenko, O.Yu., Shchukina, L.P., Ryshchenko, M.I.  Prysiazhna, L.V. (2018) Clinker ceramic materials based on natural and man-made raw materials of Ukraine. Monograph. Kharkiv: “Planeta Print” LLC, 2018, 185 [in Ukrainian].
  • 4.Khomenko, O., Datsenko, B., Sribniak, N., Nahornyi, M.  Tsyhanenko, L. (2019) Development of engobe coatings based on alkaline kaolins. Eastern-European Journal of Enterprise Technologies, Technology Organic and Inorganic Substances, 6, 6(102), 49.
  • 5.Khomenko, O., Sribniak, N., Dushyn, V.  Shushkevych, V. (2018) Analysis of the interaction between properties and microstructure of construction ceramics. Eastern-European Journal of Enterprise Technologies. Technology Organic and Inorganic Substances, 4/6 (94), 16.
  • 6.Luangnaem, C., Sathonsaowaphak, A., Kamon-In, O.  Pimraksa, K. (2014) Development of engobe samples for Dan Kwian Ceramic Body. Key Engineering Materials, 608, 325.
  • 7.Nestertsov, A. (2004) Underglaze engobe for ceramic facing tiles. Glass and Ceramics, 61(11), 413.
  • 8.Ryshchenko, M.I., Fedorenko, E.Yu., Chirkina, M.A., Karyakina, É.L.  Zozulya, S.A. (2009) Microstructure and properties of lower-temperature porcelain. Glass and Ceramics, 66(11-12), 393.
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-7d018149-ae15-4915-9d13-58780e13b1b1
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