Enhancement of alkali-activated slag cement concretes crack resistance for mitigation of steel reinforcement corrosion

Enhancement of alkali-activated slag cement concretes crack resistance for mitigation of steel reinforcement corrosion

The paper is devoted to mitigation of steel reinforcement corrosion in alkali-activated slag cement (further, AASC) concretes, based on soluble sodium silicates (further, SSS’s), obtained from high consistensy concrete mixes. Enhancement of AASC fine concretes crack resistance due to modification by...

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Main Authors: Krivenko Pavlo, Petropavlovskyi Oleh, Kovalchuk Oleksandr, Rudenko Igor, Konstantynovskyi Oleksandr
Format: Article
Language:English
Published: EDP Sciences 2020-01-01
Series:E3S Web of Conferences
Online Access:https://www.e3s-conferences.org/articles/e3sconf/pdf/2020/26/e3sconf_icsf2020_06001.pdf
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spelling doaj-6e8147838f4140bdb9912cb46ae909322021-04-02T13:49:04ZengEDP SciencesE3S Web of Conferences2267-12422020-01-011660600110.1051/e3sconf/202016606001e3sconf_icsf2020_06001Enhancement of alkali-activated slag cement concretes crack resistance for mitigation of steel reinforcement corrosionKrivenko PavloPetropavlovskyi OlehKovalchuk OleksandrRudenko IgorKonstantynovskyi OleksandrThe paper is devoted to mitigation of steel reinforcement corrosion in alkali-activated slag cement (further, AASC) concretes, based on soluble sodium silicates (further, SSS’s), obtained from high consistensy concrete mixes. Enhancement of AASC fine concretes crack resistance due to modification by complex shrinkage-reducing additives (further, SRA’s) based on surfactants and trisodium phosphate Na3PO .12H2O (further, TSP) was proposed for mitigation of steel reinforcement corrosion. SSS’s were presented by sodium metasilicate (silica modulus 1.0, dry state) and water glass (silica modulus 2.9, density 1400 kg/m3). In case of sodium metasilicate the application of SRA composition “ordinary portland cement clinker – TSP – sodium lignosulphonate – sodium gluconate” provides enhancement of crack resistance starting from early age structure formation with restriction of drying shrinkage from 0,984 to 0,713 mm/m after 80 d. The effect is caused by reduction of water and by higher volume of crystalline hydrates. In turn, SRA presented by compositions “TSP – glycerol” and “TSP – glycerol – polyacrylamide” provide enhancement of AASC fine concretes fracture toughness during late structure formation with increasing ratio of tensile strength in bending to compressive strength up to 37 – 49 % if compare with the reference AASC when water glass is used.https://www.e3s-conferences.org/articles/e3sconf/pdf/2020/26/e3sconf_icsf2020_06001.pdf
collection DOAJ
language English
format Article
sources DOAJ
author Krivenko Pavlo
Petropavlovskyi Oleh
Kovalchuk Oleksandr
Rudenko Igor
Konstantynovskyi Oleksandr
spellingShingle Krivenko Pavlo
Petropavlovskyi Oleh
Kovalchuk Oleksandr
Rudenko Igor
Konstantynovskyi Oleksandr
Enhancement of alkali-activated slag cement concretes crack resistance for mitigation of steel reinforcement corrosion
E3S Web of Conferences
author_facet Krivenko Pavlo
Petropavlovskyi Oleh
Kovalchuk Oleksandr
Rudenko Igor
Konstantynovskyi Oleksandr
author_sort Krivenko Pavlo
title Enhancement of alkali-activated slag cement concretes crack resistance for mitigation of steel reinforcement corrosion
title_short Enhancement of alkali-activated slag cement concretes crack resistance for mitigation of steel reinforcement corrosion
title_full Enhancement of alkali-activated slag cement concretes crack resistance for mitigation of steel reinforcement corrosion
title_fullStr Enhancement of alkali-activated slag cement concretes crack resistance for mitigation of steel reinforcement corrosion
title_full_unstemmed Enhancement of alkali-activated slag cement concretes crack resistance for mitigation of steel reinforcement corrosion
title_sort enhancement of alkali-activated slag cement concretes crack resistance for mitigation of steel reinforcement corrosion
publisher EDP Sciences
series E3S Web of Conferences
issn 2267-1242
publishDate 2020-01-01
description The paper is devoted to mitigation of steel reinforcement corrosion in alkali-activated slag cement (further, AASC) concretes, based on soluble sodium silicates (further, SSS’s), obtained from high consistensy concrete mixes. Enhancement of AASC fine concretes crack resistance due to modification by complex shrinkage-reducing additives (further, SRA’s) based on surfactants and trisodium phosphate Na3PO .12H2O (further, TSP) was proposed for mitigation of steel reinforcement corrosion. SSS’s were presented by sodium metasilicate (silica modulus 1.0, dry state) and water glass (silica modulus 2.9, density 1400 kg/m3). In case of sodium metasilicate the application of SRA composition “ordinary portland cement clinker – TSP – sodium lignosulphonate – sodium gluconate” provides enhancement of crack resistance starting from early age structure formation with restriction of drying shrinkage from 0,984 to 0,713 mm/m after 80 d. The effect is caused by reduction of water and by higher volume of crystalline hydrates. In turn, SRA presented by compositions “TSP – glycerol” and “TSP – glycerol – polyacrylamide” provide enhancement of AASC fine concretes fracture toughness during late structure formation with increasing ratio of tensile strength in bending to compressive strength up to 37 – 49 % if compare with the reference AASC when water glass is used.
url https://www.e3s-conferences.org/articles/e3sconf/pdf/2020/26/e3sconf_icsf2020_06001.pdf
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AT petropavlovskyioleh enhancementofalkaliactivatedslagcementconcretescrackresistanceformitigationofsteelreinforcementcorrosion
AT kovalchukoleksandr enhancementofalkaliactivatedslagcementconcretescrackresistanceformitigationofsteelreinforcementcorrosion
AT rudenkoigor enhancementofalkaliactivatedslagcementconcretescrackresistanceformitigationofsteelreinforcementcorrosion
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