Service Life and Early Age Durability Enhancement Due to Combined Metakaolin and Nanosilica in Mortars for Marine Applications

Service Life and Early Age Durability Enhancement Due to Combined Metakaolin and Nanosilica in Mortars for Marine Applications

The addition of a range of micro- and nano-particles to high-performance concrete has been the focus of recent research. At present, studies are mainly aimed at designing customised mortars, providing them with specific properties for each application. Improving the durability of mortars is one of t...

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Bibliographic Details
Published in:Materials Vol. 13; no. 5; p. 1169
Main Authors: García, Ramiro, Reyes, Encarnación, Villanueva, Paula, Ángel de la Rubia, Miguel, Fernández, Jaime, Moragues, Amparo
Format: Journal Article
Language:English
Published: Switzerland MDPI AG 05-03-2020
MDPI
Subjects:
Additives
Cement
Chloride
Chloride ions
Chloride resistance
Concrete mixing
Durability
Mechanical properties
Metakaolin
Mortars (material)
Nanoparticles
Penetration resistance
Porosity
Resins
Service life
Silica
Synergistic effect
Madrid Spain
Germany
Spain
synergy nanosilica-metakaolin
marine environment
service life
sustainability
durability at early ages
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Summary:The addition of a range of micro- and nano-particles to high-performance concrete has been the focus of recent research. At present, studies are mainly aimed at designing customised mortars, providing them with specific properties for each application. Improving the durability of mortars is one of the main objectives in such research, as a result of increasing environmental concern. The research presented herein analyses the synergistic effect of nanosilica and metakaolin as additives on the service life of cement-based mortars subject to aggressive environments (i.e., chloride exposure) at early ages. The effects of the additives on the durability properties of submerged samples after two and three days of curing were analysed. Tests were conducted on several different properties: resistivity, porosity, mechanical properties, chloride diffusion, and service life. It is observed that metakaolin and nanosilica exhibit a synergistic effect as additives, which is related to porosity refinement and chloride ion binding capacity, which contributes to enhanced resistance against chloride penetration from very early ages.
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ISSN:1996-1944
1996-1944
DOI:10.3390/ma13051169