Claudio Ferone scite author profile

This research has investigated the properties of thermally insulating geopolymer composites that were prepared using waste expanded polystyrene as lightweight aggregate. The geopolymer matrix was synthetized using metakaolin and an alkaline activating solution. To improve its mechanical properties, this matrix was modified by the addition of an epoxy resin to form an organic-inorganic composite. Moreover, in order to reduce drying shrinkage marble powder was used as an inert filler. The materials obtained were characterized in terms of physico-mechanical properties, thermal performance and microstructure. The geopolymer expanded polystyrene composite have improved properties compared to Portland cement-based materials, with higher strengths and lower thermal conductivity. The research demonstrates the manufacture of sustainable lightweight thermally insulating geopolymer composites using waste expanded polystyrene.

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Novel hybrid organic-geopolymer materials

Ferone¹,

Roviello²,

Colangelo³

et al. 2013

Applied Clay Science

126

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Use of geopolymers for composite external reinforcement of RC members

Menna

Asprone

Ferone

et al. 2013

Composites Part B: Engineering

122

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Synthesis and Characterization of Novel Epoxy Geopolymer Hybrid Composites

et al. 2013

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Abstract:The preparation and the characterization of novel geopolymer-based hybrid composites are reported. These materials have been prepared through an innovative synthetic approach, based on a co-reticulation in mild conditions of commercial epoxy based organic resins and a metakaolin-based geopolymer inorganic matrix. This synthetic strategy allows the obtainment of a homogeneous dispersion of the organic particles in the inorganic matrix, up to 25% in weight of the resin. The materials obtained present significantly enhanced compressive strengths and toughness with respect to the neat geopolymer, suggesting their wide utilization for structural applications. A preliminary characterization of the porous materials obtained by removing the organic phase from the hybrid composites by means of heat treatments is also reported. Possible applications of these materials in the field of water purification, filtration, or as lightweight insulating materials are envisaged.

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Claudio Ferone

Mechanical and thermal properties of lightweight geopolymer composites

Novel hybrid organic-geopolymer materials

Use of geopolymers for composite external reinforcement of RC members

Synthesis and Characterization of Novel Epoxy Geopolymer Hybrid Composites

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