Development of ultra-high performance concretes with self-healing micro/nano-additions

J. L. García Calvo; G. Pérez; P. Carballosa; E. Erkizia; J. J. Gaitero; A. Guerrero; A. Gerrero

doi:10.1016/j.conbuildmat.2017.02.015

Development of ultra-high performance concretes with self-healing micro/nano-additions

J. L. García Calvo^*
, G. Pérez
, P. Carballosa
, E. Erkizia
, J. J. Gaitero
, A. Guerrero
, A. Gerrero

^*Autor correspondiente de este trabajo

CSIC - Instituto de Ciencias de la Construcción Eduardo Torroja (IETCC)
Sustainable Construction Division Geldo
Fundación TECNALIA Research & Innovation

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

83 Citas (Scopus)

Resumen

UHPC are developed in present paper incorporating an innovative self-healing system based on two micro/nano-additions: silica microcapsules containing epoxy sealing compound (CAP) and amine functionalised silica nanoparticles. Although CAP are well integrated within the cementitious matrix, their inclusion promotes a reduction in the mechanical performance so CAP could act as weak points. However, the inclusion of these additions refines pore distribution thus increasing the expected durability in aggressive media. An effective autonomous self-healing capacity is assessed/confirmed which is unexpectedly higher in the concretes with the lower healing additions content studied. This capacity depends on the crack width and the healing period considered.

Idioma original	Inglés
Páginas (desde-hasta)	306-315
Número de páginas	10
Publicación	Construction and Building Materials
Volumen	138
DOI	https://doi.org/10.1016/j.conbuildmat.2017.02.015
Estado	Publicada - 1 may 2017

Palabras clave

Self-healing concrete
High performance concrete
Encapsulated additions
Characterization
Mechanical performance
Durability

Project and Funding Information

Funding Info
BIA2011-29234-C02-01 Project, funded by the Spanish Government (Ministerio de Economía y Competitividad)_x000D_ Basque Government through the PI2012-23 Project and Nanoiker Project (Grant No. E11-304) within the Etortek_x000D_ programme and under the umbrella of the Baskrete initiative.

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10.1016/j.conbuildmat.2017.02.015

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title = "Development of ultra-high performance concretes with self-healing micro/nano-additions",

abstract = "UHPC are developed in present paper incorporating an innovative self-healing system based on two micro/nano-additions: silica microcapsules containing epoxy sealing compound (CAP) and amine functionalised silica nanoparticles. Although CAP are well integrated within the cementitious matrix, their inclusion promotes a reduction in the mechanical performance so CAP could act as weak points. However, the inclusion of these additions refines pore distribution thus increasing the expected durability in aggressive media. An effective autonomous self-healing capacity is assessed/confirmed which is unexpectedly higher in the concretes with the lower healing additions content studied. This capacity depends on the crack width and the healing period considered.",

keywords = "Characterization, Durability, Encapsulated additions, High performance concrete, Mechanical performance, Self-healing concrete, Self-healing concrete, High performance concrete, Encapsulated additions, Characterization, Mechanical performance, Durability",

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T1 - Development of ultra-high performance concretes with self-healing micro/nano-additions

AU - García Calvo, J. L.

AU - Pérez, G.

AU - Carballosa, P.

AU - Erkizia, E.

AU - Gaitero, J. J.

AU - Guerrero, A.

AU - Gerrero, A.

PY - 2017/5/1

Y1 - 2017/5/1

N2 - UHPC are developed in present paper incorporating an innovative self-healing system based on two micro/nano-additions: silica microcapsules containing epoxy sealing compound (CAP) and amine functionalised silica nanoparticles. Although CAP are well integrated within the cementitious matrix, their inclusion promotes a reduction in the mechanical performance so CAP could act as weak points. However, the inclusion of these additions refines pore distribution thus increasing the expected durability in aggressive media. An effective autonomous self-healing capacity is assessed/confirmed which is unexpectedly higher in the concretes with the lower healing additions content studied. This capacity depends on the crack width and the healing period considered.

AB - UHPC are developed in present paper incorporating an innovative self-healing system based on two micro/nano-additions: silica microcapsules containing epoxy sealing compound (CAP) and amine functionalised silica nanoparticles. Although CAP are well integrated within the cementitious matrix, their inclusion promotes a reduction in the mechanical performance so CAP could act as weak points. However, the inclusion of these additions refines pore distribution thus increasing the expected durability in aggressive media. An effective autonomous self-healing capacity is assessed/confirmed which is unexpectedly higher in the concretes with the lower healing additions content studied. This capacity depends on the crack width and the healing period considered.

KW - Characterization

KW - Durability

KW - Encapsulated additions

KW - High performance concrete

KW - Mechanical performance

KW - Self-healing concrete

KW - High performance concrete

KW - Encapsulated additions

KW - Characterization

KW - Mechanical performance

KW - Durability

UR - https://www.scopus.com/pages/publications/85013191674

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DO - 10.1016/j.conbuildmat.2017.02.015

M3 - Article

AN - SCOPUS:85013191674

SN - 0950-0618

VL - 138

SP - 306

EP - 315

JO - Construction and Building Materials

JF - Construction and Building Materials

ER -

Development of ultra-high performance concretes with self-healing micro/nano-additions

Resumen

Palabras clave

Project and Funding Information

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