AbstractAbout AuthorsReferences
The characteristics of clay of the Starkinsky Deposit and charge for producing the facing brick on its basis are presented. Mineral phases, which are formed in the course of charge burning, are revealed. The phase composition of laboratory samples and fragments of brick burned in the plant kiln are compared. On the example of the «Kerma» brick-making plant, it is shown that the revealing of the factual temperature under which significant changes in the phase composition take place make it possible to make adjustments to burning conditions that lead to improving the characteristics of brick produced.
A.M. SALAKHOV1 , Candidate of Sciences (Engineering), (This email address is being protected from spambots. You need JavaScript enabled to view it.);
V.P. MOROZOV2 , Doctor of Sciences (Geology and Mineralogy);
D.V. NAYMARK3 , General Director;
A.A. ESKIN2 , Candidate of Sciences (Geology and Mineralogy)
V.P. MOROZOV2 , Doctor of Sciences (Geology and Mineralogy);
D.V. NAYMARK3 , General Director;
A.A. ESKIN2 , Candidate of Sciences (Geology and Mineralogy)
1 Kazan Federal University, Institute of Physics (18, Kremlevskaya Street, 420008, Kazan, Russian Federation)
2 Kazan Federal University, Institute of Geology and Petroleum Technologies (4/5, Kramlevskaya Street, 420008, Kazan, Russian Federation)
3 ZAO «Kerma» (607680, Afonino Village, Kstovsky District, Nizhny Novgorod Oblast, Russian Federation)
1. Giovanni Biffi. Book for the production of ceramic tiles. Faenza Editoriale. 2003. 376 p.
2. Willi Bender Vom Ziegelgott zum Industrieelektroniker. Bundesverband der Deuchen Ziegelindustrie. Bonn. 2004.
3. Maslennikova G.N., Pisch I.V. Keramichesckie pigmenti [Ceramic pigments]. Moscow. RIF Stroymaterialy.2009. 223 p.
4. Salakhov A.M., Ashmarin G.D, Morozov V.P. Salakhova R.A. Baukeramische erzeugnisse aus rohstoffen mit hohem karbonatgehalt. Keramische Zeitschrift. 2014. No. 1, pp. 35–38.
5. Ezerskiy V.A. Quantitative assessment of color of ceramic facing products. Stroitel’nye Materialy [Construction Materials]. 2015. No. 8, pp 76–80. (In Russian).
6. Zubechin A.P., Iyzenko N.D., Golovanova S.P. Teoreticheskie osnovi belezni i okraschivaniay keramiki i portlandzementa [Theoretical foundations and white coloring ceramics and Portland cement]. Moscow. RIF Stroymaterialy. 2014. 152 p. 7. Rib’ev I.A. Stroitel’noe materialovedenie [Construction materials science]. Moscow: Vysshaya shkola. 2004. 701 p. 8. Salakhov A.M. Tagirov L.R. Structure formation of ceramic with clays which form various phases at burning. Stroitel’nye Materialy [Construction Materials]. 2015. No.
8, pp. 68–74. (In Russian).
9. Merer Kh. Diffusiya v tverdykh telakh [Diffusion in Solids]. Translation from English. Dolgoprudniy: Intellekt. 2011. 536 p
2. Willi Bender Vom Ziegelgott zum Industrieelektroniker. Bundesverband der Deuchen Ziegelindustrie. Bonn. 2004.
3. Maslennikova G.N., Pisch I.V. Keramichesckie pigmenti [Ceramic pigments]. Moscow. RIF Stroymaterialy.2009. 223 p.
4. Salakhov A.M., Ashmarin G.D, Morozov V.P. Salakhova R.A. Baukeramische erzeugnisse aus rohstoffen mit hohem karbonatgehalt. Keramische Zeitschrift. 2014. No. 1, pp. 35–38.
5. Ezerskiy V.A. Quantitative assessment of color of ceramic facing products. Stroitel’nye Materialy [Construction Materials]. 2015. No. 8, pp 76–80. (In Russian).
6. Zubechin A.P., Iyzenko N.D., Golovanova S.P. Teoreticheskie osnovi belezni i okraschivaniay keramiki i portlandzementa [Theoretical foundations and white coloring ceramics and Portland cement]. Moscow. RIF Stroymaterialy. 2014. 152 p. 7. Rib’ev I.A. Stroitel’noe materialovedenie [Construction materials science]. Moscow: Vysshaya shkola. 2004. 701 p. 8. Salakhov A.M. Tagirov L.R. Structure formation of ceramic with clays which form various phases at burning. Stroitel’nye Materialy [Construction Materials]. 2015. No.
8, pp. 68–74. (In Russian).
9. Merer Kh. Diffusiya v tverdykh telakh [Diffusion in Solids]. Translation from English. Dolgoprudniy: Intellekt. 2011. 536 p
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