Study of Ceramic Coating Processing Using Dimension Stones Wastes in the Composition of the Glaze

L.G. Hastenreiter; J.C. Santos; S.P. Taguchi; L.A. Borges Jr.; Gabrielly Sandrine de Oliveira; F.W.P. Sofiati

doi:10.4028/www.scientific.net/MSF.899.406

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HomeMaterials Science ForumMaterials Science Forum Vol. 899Study of Ceramic Coating Processing Using...

Study of Ceramic Coating Processing Using Dimension Stones Wastes in the Composition of the Glaze

Abstract:

The objective of this work was to produce red ceramic glazed with dimension stone waste. The clay and residue were characterized for crystalline phases (XRD), chemical analysis (XRF) and particle size. Additives were added to the residue in order to reduce the melting point of 1280 oC to 980 °C, because 1100 °C is the temperature typically used in industrial sintering of coating ceramics. It was studied different compositions of glaze and analyzed its viscosity. The engobe and the glaze were applied on the red ceramic, previously pressed with 100x100x5 mm³ size, and sintered at 1100 oC for 1 h, in order to obtain the ceramic coating. These ceramics were analyzed for abrasion resistance, water absorption and chemical attack, according to NBR 13.818/1997, being classified as PEI 1, indicate for use in residential bathrooms and bedrooms without doors outwards, showing the potential use of dimension stone waste for flooring ceramics, mitigating environmental impacts in mineral industry.

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Periodical:

Materials Science Forum (Volume 899)

Pages:

406-411

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.899.406

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Online since:

July 2017

Authors:

L.G. Hastenreiter*, J.C. Santos, S.P. Taguchi, L.A. Borges Jr., Gabrielly Sandrine de Oliveira, F.W.P. Sofiati

Keywords:

Coating Ceramic, Dimension Stone, Engobe, Glaze, Waste

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References

[1] Installation Guide for Ceramic Tiles. Associação Nacional dos Fabricantes de Cerâmica para Revestimentos - ANFACER (2008). Accessible in: <http: /www. anfacer. org. br>. Accessed in 25 June 2015. (In Portuguese).

Google Scholar

[2] H.J. Oliveira, J.A. Labrincha: Cerâmica Industrial. March /April, 2002. (In Portuguese).

Google Scholar

[3] M.A.P. Rossi, Ceramic Glazes. Accessible in: <http: /www. portorossi. art. br/vidrados. htm>. Accessed in 27 June 2015. (In Portuguese).

Google Scholar

[4] Associação Brasileira De Normas Técnicas Soil - Particle size analysis. Rio de Janeiro: ABNT 1984. (NBR 7184) (In Portuguese).

Google Scholar

[5] Associação Brasileira De Normas Técnicas. Ceramic plates for tiles - Specification and test methods. Rio de Janeiro: ABNT 1997. (NBR 13818) (In Portuguese).

Google Scholar

[6] W.R. Knop, Study and viability of incorporation exhaust powder into ceramic body. 61 p. Master Dissertation, Universidade do Estado de Santa Catarina, Joinvile, 2009. (In Portuguese).

Google Scholar

[7] D. Guglielmi, F.W. Neves, A. Buoso: Cerâmica IndustrialVol. 13 (5) (2008), pp.21-28.

Google Scholar