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HomeMaterials Science ForumMaterials Science Forum Vol. 992Studies of Heat Insulation Concrete

Studies of Heat Insulation Concrete

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Abstract:

The article analyzes the properties changes of non-autoclave foam on a protein foaming agent with the introduction of dispersed wollastonite and diopside. A decrease in the density of foam concrete (to the grade D300, D400), frost resistance of the material, as well as shrinkage deformations was noted. The optimal technological parameters have been determined, allowing to obtain more stable properties and structure of heat-insulating cement-ash non-autoclave foam concrete. The flow chart of the production of foam concrete of natural hardening in the separate preparation of foam and mortar is presented. The studies were performed at NSTU and NGASU (Novosibirsk) and the NII (Norilsk).

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Periodical:

Materials Science Forum (Volume 992)

Pages:

130-134

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.992.130

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Online since:

May 2020

Authors:

M. Elesin, N.A. Mashkin, E.A. Bartenjeva, V. Larichkin, M. Nikolaeva*

Keywords:

Diopside, Frost Resistance, Heat Insulation Concrete, Protein Foaming Agent, Shrinkage Upon Drying, Wollastonite

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© 2020 Trans Tech Publications Ltd. All Rights Reserved

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[1] S.A. Montaev, M.Zh. Ryskaliev, S.M. Malikova, The feasibility of using cement-slag binder in the production of foam concrete, Science News of Kazakhstan. 2 (2016) 164-174.

[2] T.V. Anikanova, Sh.M. Rakhimbaev, A.S. Pogromsky, Comparative effectiveness of cellular concrete of various compositions and prospects for their use, Technique and technology of silicates. 25 (2018) 70-74.

[3] MD Jalal, Aftab Tanveer, K Jagdeesh, Furqan Ahmed, Foam Concrete, International Journal of Civil Engineering Research. 8 (2017) 1-14.

[4] N.A. Mashkin, E.A. Barteneva, The study of the processes of foaming in the technology of foam concrete, Bulletin of Tuva State University. 3 (2016) 21-30.

[5] E.A. Barteneva, N.A. Mashkin, The study of the properties of modified foam concrete, Building materials. 10 (2017) 36-40.

[6] G.I. Berdov, L.V. Ilyina, Increasing the strength of Portland cement stone with the introduction of mineral additives, Dry construction mixtures. 6 (2017) 40-41.

[7] N.A. Mashkin, A.I. Kudyakov, E.A. Bartenyeva, Non-autoclave foam concrete dispersed-reinforced with mineral and fiber additives, News of higher educational institutions. 8 (2016) 58-68.

[8] N. Mashkin, E. Bartenjeva, Research of structuring processes of non-autoclave foam concrete with introduction of mineral additives, IOP Conf. Series: Materials Science and Engineering. 451 (2018).

DOI: 10.1088/1757-899x/451/1/012018

[9] E.A. Barten'eva, M.A. Ylesin, N.A. Mashkin, D.V. Dubrov, Improvement of Heat-Insulating properties of Foam Concrete by Means of Mineral, Functional Materials and Processing Technologies. 771 (2018) 31-36.

DOI: 10.4028/www.scientific.net/kem.771.31

[10] Effective high-strength concrete (collective monograph), Volga House of Knowledge, Penza, (2015).

[11] M.A. Elesin, E.A. Barteneva, N.A. Mashkin, D.V Dubrov, Improvement of Heat-Insulating Properties of Foam Concrete by Means of Mineral Additives, Key Engineering Materials (Basic structural materials). 771 (2018) 31-36.

DOI: 10.4028/www.scientific.net/kem.771.31

[12] M.A. Elesin, New in the technology of aerated concrete, Scientific Bulletin of the Arctic. (1) 2017 29-33.

[13] Sung Young An, In-Bo Shim, Chul Sung Kim, Synthesis and magnetic properties of LiFe5O8 powders by a solgel process, J. Magnetism and Magn. (2005) 1551–1554.

[14] P. Krivenko, Fly ash based geocements modified with calciumcontain-ing additives, Proceed. 3rd International Symposium Non traditional cement & concrete, (Brno). (2008) 400-409.

[15] Malek, K, Knudsen self and Fickian diffusion in rough nanoporous media, Journal of Chemical Phуsics. 5 (2003) 2801–2811.

DOI: 10.1063/1.1584652

[16] M.R. De Roy, Hydration of Portland cement in the first 24 hours, Cement and its application. 5 (2011) 122-128.

[17] L.L. Shakhova, Study of the hydration products of composite materials, Proceedings of universities, Building. 5 (2010) 16-21.

[18] V.N. Vernigorova, Patterns of structure formation of calcareous compositions using fillers based on calcium hydrosilicates, News of universities, Building. (11/12) 2010 26-31.

[19] I.I. Goryunov, New in the technology of preparation of concrete mix on unsorted aggregates, University proceedings, Building. 3 (2010) 27-30.

[20] A.V. Usherov-Marshak, Additives in concrete: progress and problems, Building materials. 10 (2006) 8.