Investigation on the effect of inorganic acid attack on composite prepared with MK-based geopolymer and waste cork dust
Articolo
Data di Pubblicazione:
2024
Citazione:
Investigation on the effect of inorganic acid attack on composite prepared with MK-based geopolymer and waste cork dust / Dal Poggetto, G., Altimari, F., Leonelli, C., Barbieri, L.. - In: CERAMICS INTERNATIONAL. - ISSN 0272-8842. - 50:8(2024), pp. 12828-12839. [10.1016/j.ceramint.2024.01.190]
Abstract:
The chemical, microstructural and mechanical characterization of novel lightweight composites produced by
adding waste cork dust to a metakaolin-based geopolymeric matrix prepared by alkaline activation is presented.
The alkaline activator solutions used for the reticulation of the 3D aluminosilicate network at room temperature
are composed of NaOH and sodium silicate to maintain a low cost of the final composite. In this line, the research
of the highest addition of waste, e.g. cork dust, is pursued starting from 1 and reaching a maximum content of 10
wt% over metakaolin. The chemical stability is evaluated in water as well as in HNO3 or in H2SO4 0.5 and 2.5 N
solutions. The addition of cork does not affect the reticulation of the geopolymeric binder used as matrix, as is
demonstrated by FT-IR and XRD analyses. The modification of the dense geopolymeric microstructure with the
introduction of cork dust weakens the hardened composites that become more permeable to water and acid
solutions increasing the weight loss after immersion and decreasing the mechanical resistance to compression.
The mechanical performance of the hardened composite with 10 wt% of cork dust still seems to be sufficient for
application as self-supporting thermal insulation panels.
adding waste cork dust to a metakaolin-based geopolymeric matrix prepared by alkaline activation is presented.
The alkaline activator solutions used for the reticulation of the 3D aluminosilicate network at room temperature
are composed of NaOH and sodium silicate to maintain a low cost of the final composite. In this line, the research
of the highest addition of waste, e.g. cork dust, is pursued starting from 1 and reaching a maximum content of 10
wt% over metakaolin. The chemical stability is evaluated in water as well as in HNO3 or in H2SO4 0.5 and 2.5 N
solutions. The addition of cork does not affect the reticulation of the geopolymeric binder used as matrix, as is
demonstrated by FT-IR and XRD analyses. The modification of the dense geopolymeric microstructure with the
introduction of cork dust weakens the hardened composites that become more permeable to water and acid
solutions increasing the weight loss after immersion and decreasing the mechanical resistance to compression.
The mechanical performance of the hardened composite with 10 wt% of cork dust still seems to be sufficient for
application as self-supporting thermal insulation panels.
Tipologia CRIS:
Articolo su rivista
Keywords:
Acid resistance; Alkali activation; Cork waste; Mechanical performance; Metakaolin; Microstructure;
Elenco autori:
Dal Poggetto, G.; Altimari, F.; Leonelli, C.; Barbieri, L.
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