The effectiveness of ethyl silicate as consolidating and protective coating to extend the durability of earthen plasters

•Ethyl silicate significantly improves the physical resistance of earthen plasters.•Water absorption properties are clearly enhanced with ethyl silicate coatings.•Earthen plasters present limited durability against rain water and acid rain.•Ethyl silicate-treated samples show much better resistance...

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Bibliographic Details
Published in:Construction & building materials 2020-03, Vol.236, p.117445, Article 117445
Main Authors: García-Vera, Victoria E., Tenza-Abril, Antonio J., Lanzón, Marcos
Format: Article
Language:English
Subjects:
Acid resistance
Consolidation
Durability
Earthen plasters
Ethyl silicate
Microstructure
TEOS
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Summary:•Ethyl silicate significantly improves the physical resistance of earthen plasters.•Water absorption properties are clearly enhanced with ethyl silicate coatings.•Earthen plasters present limited durability against rain water and acid rain.•Ethyl silicate-treated samples show much better resistance to acid rain.•The plasters’ porosity is substantially reduced with ethyl silicate coatings. In the heritage protection, one of the most interesting scenarios is the preservation of the original materials. In this case, the surfaces are generally treated to consolidate them. The aim of this paper is to evaluate the effect of ethyl silicate coatings on surface consolidation, water absorption and porosity of earthen materials. Peeling tests, water absorption measurements (capillary and Karsten) and textural alteration analyses were conducted by optical microscopy. In addition, the protective role of the ethyl silicate coatings against rainwater, HCl rain and H2SO4 rain was evaluated to compare the durability of coated and control samples. It was found that ethyl silicate substantially improved the above properties as well as microstructural features of the samples. Scanning Electron Microscopy and EDX mapping revealed the coating was not regularly spread on the surface. Despite this, Mercury Intrusion Porosimetry tests showed the total porosity of samples coated with ethyl silicate was clearly reduced.
ISSN:0950-0618
1879-0526
DOI:10.1016/j.conbuildmat.2019.117445