Light fine-grained fibrous concrete for small architectural forms

Light fine-grained fibrous concrete for small architectural forms

The selection of the composition of a highly mobile concrete mixture for manufacturing small architectural forms has been performed, and the strength characteristics of light fine-grained fibrous concrete have been studied. It has been experimentally established that the optimal ratio of the Portlan...

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Main Authors: Baranova Albina, Badenikova Margarita, Shustov Pavel, Rudykh Christina, Bobrova Anna
Format: Article
Language:English
Published: EDP Sciences 2018-01-01
Series:MATEC Web of Conferences
Online Access:https://doi.org/10.1051/matecconf/201821201008
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spelling doaj-e0cbe3dab2de45c2a47c636701e913662021-02-02T01:52:46ZengEDP SciencesMATEC Web of Conferences2261-236X2018-01-012120100810.1051/matecconf/201821201008matecconf_icre2018_01008Light fine-grained fibrous concrete for small architectural formsBaranova Albina0Badenikova Margarita1Shustov Pavel2Rudykh Christina3Bobrova Anna4Angarsk State Technical University, Department of Industrial and Civil EngineeringAngarsk State Technical University, Department of Industrial and Civil EngineeringIrkutsk National Research Technical University, Department of Construction ProductionAngarsk State Technical University, Department of Industrial and Civil EngineeringAngarsk State Technical University, Department of Industrial and Civil EngineeringThe selection of the composition of a highly mobile concrete mixture for manufacturing small architectural forms has been performed, and the strength characteristics of light fine-grained fibrous concrete have been studied. It has been experimentally established that the optimal ratio of the Portland cement to microsilica is 1: 1. The introduction of basalt fiber in the amount of 0.5% of the mass of solids contributes to the increase in bending strength of fine-grained concrete to 70%.https://doi.org/10.1051/matecconf/201821201008
collection DOAJ
language English
format Article
sources DOAJ
author Baranova Albina
Badenikova Margarita
Shustov Pavel
Rudykh Christina
Bobrova Anna
spellingShingle Baranova Albina
Badenikova Margarita
Shustov Pavel
Rudykh Christina
Bobrova Anna
Light fine-grained fibrous concrete for small architectural forms
MATEC Web of Conferences
author_facet Baranova Albina
Badenikova Margarita
Shustov Pavel
Rudykh Christina
Bobrova Anna
author_sort Baranova Albina
title Light fine-grained fibrous concrete for small architectural forms
title_short Light fine-grained fibrous concrete for small architectural forms
title_full Light fine-grained fibrous concrete for small architectural forms
title_fullStr Light fine-grained fibrous concrete for small architectural forms
title_full_unstemmed Light fine-grained fibrous concrete for small architectural forms
title_sort light fine-grained fibrous concrete for small architectural forms
publisher EDP Sciences
series MATEC Web of Conferences
issn 2261-236X
publishDate 2018-01-01
description The selection of the composition of a highly mobile concrete mixture for manufacturing small architectural forms has been performed, and the strength characteristics of light fine-grained fibrous concrete have been studied. It has been experimentally established that the optimal ratio of the Portland cement to microsilica is 1: 1. The introduction of basalt fiber in the amount of 0.5% of the mass of solids contributes to the increase in bending strength of fine-grained concrete to 70%.
url https://doi.org/10.1051/matecconf/201821201008
work_keys_str_mv AT baranovaalbina lightfinegrainedfibrousconcreteforsmallarchitecturalforms
AT badenikovamargarita lightfinegrainedfibrousconcreteforsmallarchitecturalforms
AT shustovpavel lightfinegrainedfibrousconcreteforsmallarchitecturalforms
AT rudykhchristina lightfinegrainedfibrousconcreteforsmallarchitecturalforms
AT bobrovaanna lightfinegrainedfibrousconcreteforsmallarchitecturalforms
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