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HomeSolid State PhenomenaSolid State Phenomena Vol. 284Efficient Autoclaved Silicate Concretes with the...

Efficient Autoclaved Silicate Concretes with the Use of Steelmaking Slag

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Abstract:

The article presents the findings of the research concerning the usage of slowly cooled crystallized steelmaking slags, taken from slag disposal area, in the raw mix for autoclaved silicate materials. By means of dry milling and with the use of this slag the slag-containing binders of various compositions and basicity were prepared. The application of steelmaking slags in the raw mix allows intensifying the process of new formations synthesis and increasing the amount and crystallization degree of low-basic calcium silicate hydrates of the tobermorite group, which provides more than twofold increase of strength characteristics of the obtained materials as compared to the control sample.

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Materials Engineering and Technologies for Production and Processing IV

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Periodical:

Solid State Phenomena (Volume 284)

Pages:

956-962

DOI:

https://doi.org/10.4028/www.scientific.net/SSP.284.956

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Online since:

October 2018

Authors:

Yu.L. Starostina*, O.A. Plotnikova

Keywords:

Autoclaved Silicate Materials, Low-Basic Calcium Silicate Hydrates, New Formations, Steelmaking Slag, Tobermorite

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© 2018 Trans Tech Publications Ltd. All Rights Reserved

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[1] State Report The condition and the protection of the environment in the Russian Federation in 2014,, Ministry of Natural Resources and Environment, Moscow, (2015).

[2] Information on https://rg.ru/2013/11/08/pererabotka.html.

[3] M.A. Goncharova, A.V. Kopeykin, V.V. Krokhotin, Optimizing the methodology of converter slags' mineral composition identification, Building materials. 1 (2015) 60-63.

[4] Information on http://russ-metall.ru/news/48.

[5] G.M. Kanenko, A.I. Zdorov, A.B. Zlatkovsky, Using the iron and steel enterprises waste in building industry, Ecology and industry. 1 (2005) 40-43.

[6] Information on http://emchezgia.ru/ekologiya/13.3.2.

[7] N.P. Kudeyarova, N.P. Bushueva, E.D. Starichkova, Activity of the steelmaking slags' belite phases in autoclave conditions, Bulletin of BSTU named after V.G. Shukhov. 9 (2017) 106-112.

DOI: 10.12737/article_59cd0ba91a4025.78067185

[8] Yu.K. Rubanov, E.I. Evtushenko, I.V. Starostina, Activation and processing properties of slags, prone to silicate decomposition, Contemporary issues of building materials science: proceedings of the 5th academic readings of RAACS, VSUACE, Voronezh, (1999).

[9] N.A. Shapovalov, L.H. Zagorodnyuk, I.V. Tikunova, A.Yu. Schekina, Sustainable methods of steelmaking slags usage, Fundamental research. 1-2 (2013) 439-443.

[10] Yu. A. Alekhin, A.N. Lyusov, The economic efficiency of using secondary resources in building materials industry, Stroyizdat, Moscow, (1988).

[11] S.V. Sverguzova, I.V. Starostina, G.I. Tarasova, E.V. Fomina, Using Ferruginous Quartzite tailings In Dry Bulding Mixes, International Journal of Applied Engineering Research (IJAER). Book 10. 24 (2015) 45082-45090.

[12] I.V. Starostina, S.V. Sverguzova, I.V. Ovсharova, P.V. Besedin, E.A. Pendurin, E.M. Kuzina, Recycling of microbiological industry waste with the obtaining of foaming agents for building industry, International Journal of Applied Engineering Research. Book 10. 21 (2015).

[13] S.V. Sverguzova, I.V. Starostina, G.I. Tarasova, K.I. Shaykhieva, A.A. Vnukov, Application of the industrial waste as loading pigments, Bulletin of Kazan Technological University. Book 18. 6 (2015) 256-258.

[14] Yu. L. Starostina, N.S. Lupandina, Yu. S. Voronina, I.V. Starostina, The clay-slag autoclave-cured materials based on crumbling steelmaking slags, Bulletin of BSTU named after V.G. Shukhov. 3 (2012) 170-174.

[15] A.V. Artamonova, G.I. Nosov, Binding materials based on electric-furnace steelmaking industry, Building materials. 5 (2011) 11-13.

[16] A.N. Dildin, V.I. Chumanov, I.V. Chumanov, The integrated utilization of steelmaking industry waste, Metallurg. 11 (2010) 42-44.

[17] V.I. Chumanov, I.V. Chumanov, A.A. Kirsanova, Yu.E. Amosova, Bulletin of the South Ural State University. Series Metallurgy,. Book 13. 1 (2013) 56-60.

[18] P.I. Bozhenov, Autoclaved materials technology. Stroyizdat, Leningrad department, Leningrad, (1978).

[19] I.V. Starostina, E.I. Evtushenko, Yu. K. Rubanov, The application of crumbling electric-furnace steelmaking slags for silicate concretes production, Ecology – education. Science and industry: proceedings of the International research and methodological conference, BelSТАBМ editing office, Belgorod, (2002).

[20] N.V. Kashibadze, L.H. Zagorodnyuk, М.P. Strekozova, Designing and optimizing the properties of dry building mixes for poured-in-place floors with the use of slags, Bulletin of BSTU named after V.G. Shukhov. 3 (2009) 89-95.

[21] T.A. Vasilenko, S.V. Sverguzova, S.V. Purification of wastewaters from phosphates with the use of slag from Oskolsky electrometallurgical works, Science for the industry. Book 3. 41 (2001) 13-17.