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Durable Architectural and Decorative Powder-Activated Concrete Using Waste-Crushing Stone Rocks
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Compositions Based on Nanosized Powders Carbides of Tungsten and Titanium, Obtained by the Method Self-Propagating High Temperature Synthesis for the Modification of Gray Cast Iron and Steel 110g13L
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Obtaining Fine-Grained Concrete with the Use of Ash Gidrogelei and Conducting Final Testing
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HomeKey Engineering MaterialsKey Engineering Materials Vol. 802Durable Architectural and Decorative...

Durable Architectural and Decorative Powder-Activated Concrete Using Waste-Crushing Stone Rocks

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Abstract:

The article consists in the development of compositions of self-compacting powder-activated fine-grained (sand) concrete mixtures, including color ones, for the production of high-density, high-strength and durable architectural and decorative concretes, which do not lose their architectural appeal during long-term operation, on the basis of multi-tonnage waste of stone crushing of various rocks, without the use of expensive mineral reactive components and the study of their physical and technical properties.

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Periodical:

Key Engineering Materials (Volume 802)

Pages:

1-15

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.802.1

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Online since:

May 2019

Authors:

Sergey Victorovich Daletsky*, Yuri Mikhailovich Kolitievsky, Victor Vasilievich Nikonov, Nikolay Nikolaevich Sirotin, Vladimir Vladimirovich Yudaev

Keywords:

Architectural Forms, Building Solution, Powder-Activated Concrete, Rock, Self-Compacting Concrete, Stone

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© 2019 Trans Tech Publications Ltd. All Rights Reserved

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[1] Burg R. G., and Ost, B. W., Engineering properties of commercially available concretes hichstrengt // Portland cement association. Bulletion RDYD 4 TS. - 1992. - № 1914. - Pp. 56.

[2] Kalashnikov, V. I. Powder-activated fine-grained dry concrete mixtures for the production of various concretes / V. I. Kalashnikov, V. M. Volodin. // Youth innovation forum. UlSTU. - May 2014 -P. 67-70.

[3] Butkevich, G. R. problems of involvement of waste of mining production in economic activity / / Construction materials-2016. - № 7. – Pp. 62-65.

[4] Malyshev, N. Development of mining and industrial complex in the conditions of increasing competition in the world markets of mineral resources. Mineral resources of Russia. Economics and management. - 2016. - №1.

[5] Butkevich, G. R. Periodization of development of the industry of nonmetallic construction materials: assessment of the passed way and a look into the future // Building materials ‒ 2013. - №1. - P. 16-19.

[6] Kalashnikov V. I. through rational rheology-into the future of concrete / / concrete Technology. 2007. - № 5. - P. 8-10; 2007. - №6. - P. 8-11; 2008. - №1. - P. 22-26.

[7] Kalashnikov, V. I. Terminology of the new generation concrete science / / Building materials. - 2011. - №3. - P. 103-106.

[8] Gulyaev, E. V. Retechnologization characteristics of plasticized cement-dispersed mineral slurries and concrete mixtures for efficient production of concrete. PhT. Sciences: 05.23.05 / Gulyaeva Ekaterina Vladimirovna-Penza, 2012. -178 p.

[9] World premiere in Austria – arched drawbridge made of high-strength fiber concrete // CPI. International concrete production. 2011. - № 1. - pp.132-134.

[10] Kalashnikov, V. I. the Concrete of the old and new generations. Status and prospects / / Science: 21 century. - 2012. - №1. – 60-67.

[11] Web source: http://www.sistrom.ru.

[12] BetonMarketing Deutschland, 40699, Erkrath, Germany. Concrete flowers // CPI concrete plant International. - 2013. - №5. - P. 24-26. 13) Holberg Ressner, Ed. Zuedlin AG, New opportunities architectural facade design / / CPI international concrete production. - 2013. - №6. - P. 152-155.

[13] Sonia Galliger, Johann Kollegger, the Process of production of shell concrete elements plusobama // CPI concrete plant International. - 2013. - №1. - P. 104-108.

[14] Shipper, P. application of SUB and textile reinforcement / / CPI International concrete production. - 2013. - №5. - P. 142-147.

[15] Dyckerhoff Ag, 65203 Wiesbaden, Deutschland. Concrete surfaces with photocatalytic activation / / CPI International concrete production-2013. - №6. - P. 18.

[16] Laura gonzález Michel, Pavimentos de Tudela. New concrete paving and cleansing properties // CPI concrete plant International. - 2013. - №6. - P. 152-155.

[17] New opportunities for design through the use of patented worldwide granulated glass / / Concrete plant. - 2009. - №2. ‒ P.54.

[18] Ananyev, S. V. the composition of the topological structure and rheological properties retechnologization matrices for the production of concretes of new generation. PhT. Sciences: 05.23.05-Penza. - 2011. - 148 p.

[19] Cheremisina, O.V., Litvinova, T.E., Lutskiy, D.S. Separation of samarium, europium and erbium by oleic acisolution at stoichiometric rate of extractant (2019) Innovation-Based Development of the Mineral Resources Sector: Challenges and Prospects - 11th conference of the Russian-German Raw Materials, 2018, pp.413-419.

[20] Sulimova, M., Tatiana, L., Denis, L., Olga, C. The application of ferromanganese concretions (FMC) to clean industrial drains from phenol and its derivatives (2015) FOG - Freiberg Online Geoscience, 40, pp.103-108.

[21] Lutskiy, D., Litvinova, T., Ignatovich, A., Fialkovskiy, I. Complex processing of phosphogypsum - A way of recycling dumps with reception of commodity production of wide application (2018) Journal of Ecological Engineering, 19 (2), pp.221-225.

DOI: 10.12911/22998993/83562

[22] Khorin, A., Pichkov, O., Brovkin, A., Potanina, Y. Engineering formation of a nuclear power plant safety system (2018) International Journal of Mechanical Engineering and Technology, 9 (10), pp.1406-1414.