Paper Titles

Influence of the Accuracy of Determining the Inner Diameter of Pressure Polyethylene Pipes by the Amount of Head Loss by Length
p.1012

The Choice of Chemical Composition and Raw Materials for the Production of Basalt Wool with the Defined Characteristics
p.1018

Method for Parameter Determination of Ceramic Products Compression Using the Mounting for Curves Readout
p.1024

Methodological Approaches in Assessing the Possibility of Using Waste Electrocorundum Materials in Concrete Compositions
p.1030

Nano Modified Foam-Fiber-Concrete Mixture
p.1036

New Concrete for Protection from Radiation in the Urals Based on Natural Fillers
p.1042

New Technology of White Portland Cement Production in the Ural Federal District
p.1047

Optimization of Fine-Grained Concrete Composition in Order to Improve the Quality of Units’ Front Surface
p.1052

The Formation of Composite Curing Systems Based on Technogenic Raw Materials
p.1058

HomeSolid State PhenomenaSolid State Phenomena Vol. 284Nano Modified Foam-Fiber-Concrete Mixture

Nano Modified Foam-Fiber-Concrete Mixture

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Abstract:

The article describes new compositions of foam-fiber-concrete mixture including portland cement, fine aggregate in the form of quartz sand, glass fiber, hollow glass microspheres, nanoadditives, foam generating agent and superplasticizing agent. The authors offer a technology for preparation of the mixture and determine the physical and mechanic properties of the hardened foam-fiber concrete. The obtained mixtures of foam materials have better compressive and extension strength with increased strength-density ratio as compared to analogous known mixtures of foam-fiber concrete.

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Materials Engineering and Technologies for Production and Processing IV

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Periodical:

Solid State Phenomena (Volume 284)

Pages:

1036-1041

DOI:

https://doi.org/10.4028/www.scientific.net/SSP.284.1036

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Online since:

October 2018

Authors:

V.A. Perfilov*, V.V. Gabova

Keywords:

Fiber, Foam Generating Agent, Foam-Fiber Concrete, Glass Microspheres, Nano Additives, Strength

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© 2018 Trans Tech Publications Ltd. All Rights Reserved

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[1] V.A. Perfilov, A.V. Kotlyarevskaya, U.V. Kanavets. Influence of microreinforcing fibres and plasticizing additives on properties of fine-grained concrete, Bulletin of Volgograd State University of Architecture and Civil Engineering. Series: Construction and Architecture. 44 (2016).

[2] V.A. Perfilov, D.V. Oreshkin, V.S. Semenov. Environmentally safe mortar and grouting solutions with hollow glass microspheres / Procedia Engineering. 150 (2016). 1479-1484.

DOI: 10.1016/j.proeng.2016.07.086

[3] D.V. Oreshkin, A.N. Chebotaev, V.A. Perfilov, Disposal of drilling sludge in the production of bulding materials / Procedia Engineering. 2015. Т. 111. С. 607-611.

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[4] V.A. Perfilov, D.V. Oreshkin, D.Y. Zemlyanushnov, Concrete strength and crack resistance control, Procedia Engineering 2. Сер. 2nd International Conference on Industrial Engineering, ICIE 2016, 2016. С. 1474-1478.

DOI: 10.1016/j.proeng.2016.07.085

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DOI: 10.1051/matecconf/201712905021

[6] V.A. Perfilov, Fine fiber concretes. Thesis. Ministry of Education and Science of the Russian Federation. Volgograd State University of Architecture and Civil Engineering. Volgograd: VolgGASU, 2015. 126 p.

[7] V.A. Perfilov, M.O. Zubova, Influence of basalt fibers for strength fine-grained fibre concrete, Internet-vestnik VolgGASU. 1 (2015) P. 9.

[8] V.A. Perfilov, M.O. Zubova, Influence of carbon additives on properties of fine-grained fibre concrete, Internet-vestnik VolgGASU. 1 (2015) P. 10.

[9] V.A. Perfilov, M.O. Zubova, Influence of superplasticizing agents on properties of fine-grained fibre concrete, Internet-vestnik VolgGASU. 1 (2015) P. 11.

[10] V.A. Perfilov, M.O. Zubova, Fine bazal fibre concretes, Vestnik VolgGASU. 38 (2014) 85-93.

[11] V.A. Perfilov, M.O. Zubova, Basalt fiber fibre as the main component of dispersive-fibrous reinforcement of concrete, Vestnik DonNASA. 3 (2013) 146-148.

[12] V.A. Perfilov, M.O. Zubova, D.L. Neizvestny'j, Fiber concretes with basalt additives and superplasticizing agents / 6-th International Scientific Conference Reliability and durability of building materials, structures and grounds of foundations,, 248-250 (2011).

[13] V.A. Perfilov, M.O. Zubova, D.L. Neizvestny'j, Application of basalt fibers and modifying additives to improve strength properties of heavy concrete, Russian Physics Journal. 12 (2011) С. 46-49.

[14] V.A. Perfilov, A.V. Atkina, O.A. Kusmarceva, U.V. Kanavec, Fiber concretes with macro-strengthening agents and nanomidifiers / The III All-Russian scientific and technical conference Science. Practice. Education,, 236-238 (2009).

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[17] V.A. Perfilov, A.V. Kotlyarevskaya, U.V. Kanavec. Influence of hollow glass microspheres on light fine-grained concretes/ Volgograd State University of Architecture and Civil Engineering bulletin. Series: Construction and Architecture, 2016. No. 43 (62). P. 93-103.

[18] V.A. Perfilov, A.V. Kotlyarevskaya, U.V. Kanavec. Influence of nanocarbon additives and hollow glass microspheres on fiam-fiber concretes/ Volgograd State University of Architecture and Civil Engineering bulletin. Series: Construction and Architecture, 2014. No. 44-2 (63). P. 119-124.

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[20] A.V. Kotlyarevskaya. Foam fiber concretes using microstrengthening agents and modifiers: Thesis… PhD in Engineering. Volgograd, 2013, 161 p.

[21] V.A. Perfilov, A.V. Atkina, O.A. Kusmarceva, The application of nanocaron tubes for increase of strength of foam concretes with polymer and basalt fibers, Concrete Technology. 2012, No. 9-10 (74-75) P. 50-51.

[22] V.A. Perfilov, V. I. Lepilov, A.V. Kotlyarevskaya. Foam-fiber concrete blocks with decreased thermal conductivity for fencing structures // Quality of inside air and environment. 10th International scientific conference. Volgograd: VolgGASU, 2012. P. 439-444.

[23] V.A. Perfilov, A.V. Kotlyarevskaya, Use of fibers and superplasticizing agents to improve foam concretes strength // Reliability and durability of contruction materials, structures and foundations: 6th Internations conference. Volgograd: VolgGASU, 2011. P. 251-252.

[24] V.A. Perfilov, A.V. Kotlyarevskaya, O.A. Kusmarceva. Modified fiber-foam concretes/ Scientific potential of young scientists for innovative development of the construction complex of the Lower Volga Region, International scientific and practice conference: in 2 books. 2011. P. 236-238.

[25] V.A. Perfilov, A.V. Atkina, O.A. Kusmarceva. The application of modifying microreinforcing components for increase of durability of cellular materials, Russian Physics Journal. 9 (2010) 11-14.

[26] V.A. Perfilov, A.V. Atkina, O.A. Kusmarceva. Fiber cements with very high disperse fiber fillers // Low-rise construction: technologies and materials, problems and development prospects of the Volgograd oblast: International scientific and practice conference within the framework of National project Affordable and comfortable housing for the citizens of Russia,, Volgograd: VolgGASU, 2009. P. 89-91.

[27] V.A. Perfilov, V. I. Lepilov. Clay-concrete bock with high heat-insulation // Higher education bulletin. North Caucasian region. Series Technical science. 2008 No. 6, P. 116-120.