Evaluation of concrete self-healing by encapsulated sodium metasilicate in perlite and expanded clay

Evaluation of concrete self-healing by encapsulated sodium metasilicate in perlite and expanded clay

abstract: Investigating the behavior of self-healing cementitious composites is necessary to know alternatives that can be applied in structures increasing their life service. Therefore, this study evaluated concrete self-he aling from the use of expanded perlite (EP) and expanded clay (EC) capsules impregnated with a sodium metasilicate solution. These materials were used to substitute natural aggregates in concrete in proportions of 0 wt·%, 15 wt·% and 30 wt·% which were cured in humid or submerged environments. Cracking was induced with a flexural test and a closing with cicatrization product. was evaluated and measured visually with a software. Capillary absorption tests indicated a reduction in the porosity of samples which incorporated self-healing materials, considering it as an important property related to durability. Samples with EP achieved 100% self-healing with 15% substitution. Crack filling was achieved in cracks up to 0.43 mm wide. Samples with EC achieved 50% crack recovery under humid curing and 90% under submerged curing. It was concluded that incorporating the sodium silicate allowed improvements to fissure sealing and it is an alternative to produce self-healing concrete in Brazil. EP was more effective than EC as encapsulating material. Despite that, the EP did not impact the compressive strength due to its small size and better packing of the mixture, Also, EP presented higher healing percentage when comparing with samples containing EC.

Saved in:
Bibliographic Details
Main Authors: Pacheco,Fernanda, Boscaini,Cláudio Henrique, Gauto,Thaize Nascimento, Müller,Vinicius, Ehrenbring,Hinoel Zamis, Modolo,Regina Célia Espinosa, Tutikian,Bernardo Fonseca
Format: Digital revista
Language:English
Published: IBRACON - Instituto Brasileiro do Concreto 2023
Online Access:http://old.scielo.br/scielo.php?script=sci_arttext&pid=S1983-41952023000200201
Tags: Add Tag
No Tags, Be the first to tag this record!
id oai:scielo:S1983-41952023000200201
record_format ojs
spelling oai:scielo:S1983-419520230002002012022-08-22Evaluation of concrete self-healing by encapsulated sodium metasilicate in perlite and expanded clayPacheco,FernandaBoscaini,Cláudio HenriqueGauto,Thaize NascimentoMüller,ViniciusEhrenbring,Hinoel ZamisModolo,Regina Célia EspinosaTutikian,Bernardo Fonseca concrete self-healing expanded perlite sodium meta-silicate abstract: Investigating the behavior of self-healing cementitious composites is necessary to know alternatives that can be applied in structures increasing their life service. Therefore, this study evaluated concrete self-he aling from the use of expanded perlite (EP) and expanded clay (EC) capsules impregnated with a sodium metasilicate solution. These materials were used to substitute natural aggregates in concrete in proportions of 0 wt·%, 15 wt·% and 30 wt·% which were cured in humid or submerged environments. Cracking was induced with a flexural test and a closing with cicatrization product. was evaluated and measured visually with a software. Capillary absorption tests indicated a reduction in the porosity of samples which incorporated self-healing materials, considering it as an important property related to durability. Samples with EP achieved 100% self-healing with 15% substitution. Crack filling was achieved in cracks up to 0.43 mm wide. Samples with EC achieved 50% crack recovery under humid curing and 90% under submerged curing. It was concluded that incorporating the sodium silicate allowed improvements to fissure sealing and it is an alternative to produce self-healing concrete in Brazil. EP was more effective than EC as encapsulating material. Despite that, the EP did not impact the compressive strength due to its small size and better packing of the mixture, Also, EP presented higher healing percentage when comparing with samples containing EC.info:eu-repo/semantics/openAccessIBRACON - Instituto Brasileiro do ConcretoRevista IBRACON de Estruturas e Materiais v.16 n.2 20232023-01-01info:eu-repo/semantics/articletext/htmlhttp://old.scielo.br/scielo.php?script=sci_arttext&pid=S1983-41952023000200201en10.1590/s1983-41952023000200001
institution SCIELO
collection OJS
country Brasil
countrycode BR
component Revista
access En linea
databasecode rev-scielo-br
tag revista
region America del Sur
libraryname SciELO
language English
format Digital
author Pacheco,Fernanda
Boscaini,Cláudio Henrique
Gauto,Thaize Nascimento
Müller,Vinicius
Ehrenbring,Hinoel Zamis
Modolo,Regina Célia Espinosa
Tutikian,Bernardo Fonseca
spellingShingle Pacheco,Fernanda
Boscaini,Cláudio Henrique
Gauto,Thaize Nascimento
Müller,Vinicius
Ehrenbring,Hinoel Zamis
Modolo,Regina Célia Espinosa
Tutikian,Bernardo Fonseca
Evaluation of concrete self-healing by encapsulated sodium metasilicate in perlite and expanded clay
author_facet Pacheco,Fernanda
Boscaini,Cláudio Henrique
Gauto,Thaize Nascimento
Müller,Vinicius
Ehrenbring,Hinoel Zamis
Modolo,Regina Célia Espinosa
Tutikian,Bernardo Fonseca
author_sort Pacheco,Fernanda
title Evaluation of concrete self-healing by encapsulated sodium metasilicate in perlite and expanded clay
title_short Evaluation of concrete self-healing by encapsulated sodium metasilicate in perlite and expanded clay
title_full Evaluation of concrete self-healing by encapsulated sodium metasilicate in perlite and expanded clay
title_fullStr Evaluation of concrete self-healing by encapsulated sodium metasilicate in perlite and expanded clay
title_full_unstemmed Evaluation of concrete self-healing by encapsulated sodium metasilicate in perlite and expanded clay
title_sort evaluation of concrete self-healing by encapsulated sodium metasilicate in perlite and expanded clay
description abstract: Investigating the behavior of self-healing cementitious composites is necessary to know alternatives that can be applied in structures increasing their life service. Therefore, this study evaluated concrete self-he aling from the use of expanded perlite (EP) and expanded clay (EC) capsules impregnated with a sodium metasilicate solution. These materials were used to substitute natural aggregates in concrete in proportions of 0 wt·%, 15 wt·% and 30 wt·% which were cured in humid or submerged environments. Cracking was induced with a flexural test and a closing with cicatrization product. was evaluated and measured visually with a software. Capillary absorption tests indicated a reduction in the porosity of samples which incorporated self-healing materials, considering it as an important property related to durability. Samples with EP achieved 100% self-healing with 15% substitution. Crack filling was achieved in cracks up to 0.43 mm wide. Samples with EC achieved 50% crack recovery under humid curing and 90% under submerged curing. It was concluded that incorporating the sodium silicate allowed improvements to fissure sealing and it is an alternative to produce self-healing concrete in Brazil. EP was more effective than EC as encapsulating material. Despite that, the EP did not impact the compressive strength due to its small size and better packing of the mixture, Also, EP presented higher healing percentage when comparing with samples containing EC.
publisher IBRACON - Instituto Brasileiro do Concreto
publishDate 2023
url http://old.scielo.br/scielo.php?script=sci_arttext&pid=S1983-41952023000200201
work_keys_str_mv AT pachecofernanda evaluationofconcreteselfhealingbyencapsulatedsodiummetasilicateinperliteandexpandedclay
AT boscainiclaudiohenrique evaluationofconcreteselfhealingbyencapsulatedsodiummetasilicateinperliteandexpandedclay
AT gautothaizenascimento evaluationofconcreteselfhealingbyencapsulatedsodiummetasilicateinperliteandexpandedclay
AT mullervinicius evaluationofconcreteselfhealingbyencapsulatedsodiummetasilicateinperliteandexpandedclay
AT ehrenbringhinoelzamis evaluationofconcreteselfhealingbyencapsulatedsodiummetasilicateinperliteandexpandedclay
AT modoloreginaceliaespinosa evaluationofconcreteselfhealingbyencapsulatedsodiummetasilicateinperliteandexpandedclay
AT tutikianbernardofonseca evaluationofconcreteselfhealingbyencapsulatedsodiummetasilicateinperliteandexpandedclay
_version_ 1756436535905878016

Similar Items