Concretes with Unique Properties for Special Building Structures

The article discusses the results of the innovative concrete types application in the buildings and structures construction. A classification of effects types according to the recommended features is proposed. The methodological approaches to the cost-benefit analysis methods substantiating at the stage of assessment and implementation of a construction project by the organization using innovative constructional materials are investigated and proposed. The methodical approach of determining the profitability of the production and sale of construction products has been expanded through the approach of evaluating efficiency based on the resource and optimization methods use.

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Innovative Structural-Heat-Insulating Concrete for Insulation and Stability Rise of Frozen Foundation Soils

Stepanova

Abu-Hasan²,

Soloveva

2022

Proceedings of Petersburg Transport University

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Purpose: To create highly effective heat-insulating structural concrete, recommended for insulating and preventing permafrost soil thawing. Methods: When conducting research, we used GOST (Russia State Standards) 25820-2014 “Lightweight concrete. Specifications”, GOST 25485—2019 “Cellular concrete. General technical conditions”. Determination of strength and processing of results according to GOST 10180-2012 “Concrete. Methods for determining strength upon control samples”; thermal conductivity coefficient was determined according to GOST 7076-99 “Construction materials and products. Method for determining thermal conductivity and thermal resistance at stationary thermal regime”; frost resistance of concrete according to GOST 10060-2012 “Concrete. Methods for determining frost resistance”; density of concrete in natural moisture state- according to GOST 12730.1-2020 “Concrete. Density determination methods”. It has been established experimentally that in order to create highly efficient heat-insulating-structural concrete, it is advisable to use as a filler a foam glass of fraction 1.25–2.5 mm, D250, λ ≈ 0.06 W/ m · °C, and for to create strong and reliable matrix on cement basis it’s effective to use finely dispersed microsilica in combination with complex chemical additive on polycarboxylate basis, modified with nano-dispersions of silicon dioxide, SiO2. Results of physicalmechanical studies have confirmed that it is effective to use particles of silicon dioxide together of micro- and nano-size in combination with surfactants represented by polycarboxylate polymers, meanwhile, foamed glass concrete with the best compressive strength and tensile strength at bending a rises significantly, coefficient of resistance to cracks of nanomodified foam glass concrete, Ktr. = Rbend./Rcompress. = 3.6/13.3 = 0.27, has rather high value which should provide for increased resistance to cracks and for reliability for a protective coating. In order to increase density/strength without deteriorating heat-insulating indicators it is advisable to use additionally a finely-ground blast-furnace slag as a filler which a rises cohesion of foam glass concrete mixture and strength of foam glass concrete. Practical significance: Rational ratio of components of nanomodified foam glass concrete mixture ensures the creation of highly mobile foam glass concrete mixture with good workability, and on the mixture basis, a unique heat-insulating-structural material is formed with the following characteristics: D900; λ = 0.14 W/m·°C, B12, Btb2.9 F1300 that defines it as a thermal insulation material of increased reliability and durability, which is advisable for recommendation for the Arctic harsh regions.

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Concretes with Unique Properties for Special Building Structures

Cited by 3 publications

References 18 publications

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Innovative Structural-Heat-Insulating Concrete for Insulation and Stability Rise of Frozen Foundation Soils

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