Aerogel-based renders with lightweight aggregates: Correlation between molecular/pore structure and performance

[Display omitted] •A thermal render with cement-fly ash, subcritical hybrid aerogel and co-aggregates.•T1 thermal render with suitable compressive strength and good deformation capacity.•The lightweight aggregates mixture enhances hygrothermal and mechanical performance.•Correlation between molecula...

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Veröffentlicht in:	Construction & building materials 2016-10, Vol.124, p.485-495
Hauptverfasser:	de Fátima Júlio, Maria, Soares, António, Ilharco, Laura M., Flores-Colen, Inês, de Brito, Jorge
Format:	Artikel
Sprache:	eng
Schlagworte:	Aggregates (Building materials) Analysis Cement Cementitious renders Lightweight aggregates Mechanical properties Molecular structure Pore structure Subcritical aerogel Thermal performance
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container_title	Construction & building materials
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creator	de Fátima Júlio, Maria Soares, António Ilharco, Laura M. Flores-Colen, Inês de Brito, Jorge
description	[Display omitted] •A thermal render with cement-fly ash, subcritical hybrid aerogel and co-aggregates.•T1 thermal render with suitable compressive strength and good deformation capacity.•The lightweight aggregates mixture enhances hygrothermal and mechanical performance.•Correlation between molecular and pore structure and performance. The role of lightweight aggregates on the hygrothermal and mechanical performance of cementitious aerogel-based renders was understood. The lightweight aggregates totally replaced silica sand, with a binder:aggregate volume ratio of 1:4. A cement-fly ash (50wt%) binder, with 60vol% subcritical silica-based aerogel, 20vol% granular expanded cork, 15vol% expanded clay and 5vol% perlite, produces a lightweight (652kg.m−3), thermal render (thermal conductivity of 0.084W.m−1.K−1), with acceptable mechanical strength and good deformation capacity. The correlation of these renders’ properties with the molecular and pore structure of the aggregates proved to be extremely useful to improve their overall performance.
doi_str_mv	10.1016/j.conbuildmat.2016.07.103
format	Article
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subjects	Aggregates (Building materials) Analysis Cement Cementitious renders Lightweight aggregates Mechanical properties Molecular structure Pore structure Subcritical aerogel Thermal performance
title	Aerogel-based renders with lightweight aggregates: Correlation between molecular/pore structure and performance
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