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Porous geopolymer insulating core from a metakaolin/biomass ash composite

TitoloPorous geopolymer insulating core from a metakaolin/biomass ash composite
Tipo di pubblicazioneArticolo su Rivista peer-reviewed
Anno di Pubblicazione2017
AutoriMurri, A.N., Medri V., Papa E., Laghi L., Mingazzini C., and Landi E.
RivistaEnvironments - MDPI
Volume4
Paginazione1-13
ISSN20763298
Abstract

Ashes derived from the combustion of vegetal and animal biomass still represent a mostly unexplored secondary raw material for the production of alkali-activated materials, given their peculiar chemical nature. In this work, calcium phosphate biomass ashes were successfully used as partially reactive fillers in a metakaolin-based geopolymer composite to produce, by direct foaming, sustainable and lightweight boards with thermal insulating properties. The investigated materials were obtained by activating a blend of metakaolin and biomass ash in a weight ratio of 1: 1 and foamed with the addition of H2 O2 in measure of 5 wt. %, to maximize the volume of disposed ash and ensure adequate properties to the material at the same time. The obtained geopolymer composite was characterized by microstructural, chemical-physical, mechanical and thermal analysis: the obtained results showed that biomass ash and metakaolin well integrated in the microstructure of the final porous material, which was characterized by a density of about 310 kg/m3 and a thermal conductivity of 0.073 W/mK at a mean test temperature of 30◦ C, coupled with an acceptable compressive strength of about 0.6 MPa. Dilatometric and thermogravimetric analysis, performed up to 1000◦ C, highlighted the thermal stability of the composite, which could be regarded as a promising material for low-cost, self-bearing thermal insulating partitions or lightweight cores for thermostructural sandwich panels. © 2017 by the authors. Licensee MDPI, Basel, Switzerland.

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cited By 4

URLhttps://www.scopus.com/inward/record.uri?eid=2-s2.0-85059138418&doi=10.3390%2fenvironments4040086&partnerID=40&md5=9d6e7f0bb8c651b80247f435c6f4f361
DOI10.3390/environments4040086
Citation KeyMurri20171