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HomeSolid State PhenomenaSolid State Phenomena Vol. 265Structure and Properties of Concrete for Injection...

Structure and Properties of Concrete for Injection with Two-Stage Expansion

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Abstract:

Often, when it is necessary to fill formwork space in confined working conditions with limited operational control in some engineering solutions the special materials for injection are used. In this case, it is advisable to use high-fluidity concrete mixes made with К-cement, regulator of the kinetics of structure formation, superplasticizer and gas-forming admixture. The gas-forming admixture obtains of expansion of fresh-concrete during first stage. The special sulfo-alumina additive in K-cement obtains of expansion of hardening concrete during second stage. The main regularities in the formation of the structure and properties of cement stone are considered. The dependences "composition-technology-structure-properties" for concretes with two-stage expansion are clarified. The main provisions for determination of mix proportion for concrete are proposed. The quantitative relationships between the construction properties of concretes and prescription and technological factors are obtained.

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Materials Engineering and Technologies for Production and Processing III

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Periodical:

Solid State Phenomena (Volume 265)

Pages:

103-108

DOI:

https://doi.org/10.4028/www.scientific.net/SSP.265.103

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Online since:

September 2017

Authors:

Yulia Koryanova*

Keywords:

Complex Additive, Gas-Forming Admixture, Injection, K-Cement, Regulator of Kinetics of Structure Formation, Superplasticizer, Two-Stage Expansion

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© 2017 Trans Tech Publications Ltd. All Rights Reserved

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[1] Y.M. Bazhenov, Concrete Technology, Publishing House of the ABC, Moscow, (2002).

[2] V.S. Demyanova, V.I. Kalashnikov, I.E. Ilyina, Comparative evaluation of the impact of domestic and foreign superplasticizers on the properties of cement compositions, Building materials, 9 (2002).

[3] V.I. Kalashnikov, V.S. Demyanova, A.A. Borisov, Classification assessment cements in the presence of superplasticizer for high-strength concrete, Proceedings of the universities, 1 (1999) 39-42.

[4] G.V. Nesvetaev, The effectiveness application of superplasticizers in concrete, Building materials, 10 (2006) 23-25.

[5] V.T. Percev, Control process early structuring of concrete, Voronezh, VGASU, (2001).

[6] G.A. Airapetov, G.V. Nesvetaev, The application of expanded cement for waterproof construction, Weimar, (1995) 161-173.

[7] A.I. Zvezdov, Concrete with compensated shrinkage for the construction crack resistance of long structures, Concrete and reinforced concrete, 4 (2001) 17-20.

[8] S.L. Litver, L.A. Malinina, V.A. Zagurskii, A.I. Panchenko, Value selfstress and free expansion stressing concrete, Concrete and reinforced concrete, 5 (1985) 15-16.

[9] T.V. Kuznetsova, Aluminate and sulfoalyuminate cements, Stroyizdat, Moscow, (1989).

[10] I.V. Mikhailov, M.I. Beilina, K-cement for prestressed structures, Concrete and reinforced concrete, 9 (1987) 7-8.

[11] A.I. Panchenko, Durability concrete in the expanded cement, 75 years of expanded cement, Weimar, Germany, (1995) 119-129.

[12] A.I. Zvezdov, L.I. Budagyants. Concrete with compensated shrinkage, Experience and perspectives of application concrete on K-cement in construction, Moscow, (1992) 101-106.

[13] V.A. Zagurskii, Influence of additives on construction properties stressing concrete: New research on concrete and reinforced concrete structures, Collection of scientific papers, Moscow, (1977) 56-62.

[14] S.S. Kaprielov, G.S. Kardumyan, The application of complex additives containing expansion components to reduce shrinkage deformation high-strength concrete, Concrete and reinforced concrete in the third millennium, Rostov-on-Don, (2002) 104-110.

[15] K.G. Krasilnikov, L.V. Nikitina, N.N. Skoblinskaya, Physic-chemistry of its own deformation of cement stone, Stroyizdat, Moscow, (1980).

[16] A.A. Osokin, Y.R. Krivoborodov, E.N. Potapova, The modified portland cement, Stroyizdat, Moscow, (1993).

[17] J. Stark, I. Chartschenko, Entwicklung der Quellzemente fur die Baupraxis, «75 Jahre Quellzement» Internationales Symposium, Weimar, (1995).

[18] A. Klein, G.E. Troxell, Proceedings of ACTM, (1958).

[19] H. Lossier, Les ciments expansivs et leur applications, Le Cenie Civil, (1944).

[20] P. Mehta, Mechanism of Expansion Associated with Ettringite Formation, Ibid.

[21] S. Chatterji, I.W. Jefferi, Mag. Concr. Res. 44, 83, (1963).

[22] T. Tanaka, V. Watanabe, Laboratory Preparation of Expansive Cements, Semento Gijutsu Nempo, Tokyo, Japan, 9 (1955) 103-117.

[23] G.V. Nesvetaev, Concrete: a tutorial, Phoenix, Rostov-on-Don, (2011).

[24] G.V. Nesvetaev, L.A. Khomich, Some properties of stressing concrete with the addition Embelit, Scientific Review, 10 (2014) 642-645.

[25] G.V. Nesvetaev, A.V. Kolleganov, L.N. Ivlev, Perspective of the applying method ultrasonic ensounding in the survey and design of strengthening reinforced concrete structures, Occupational safety in the industry, 2 (2008) 62-66.