Joseph Henon scite author profile

International audiencePorous potassium based geopolymers with a mutli-scale porosity were synthesized. Silica fume is introduced as an additive to the geopolymer formulation. The free silicon contained inside this silica fume is oxidized in alkaline solution, releasing molecular hydrogen which generates the porosity. Previous work has shown how the porosity can be controlled with temperature, repeated temperature cycles and the mass introduced. Using this protocol, homogeneous foams were made and then studied with scanning electron microscopy. In particular the foam expansion has been followed with time in relation to the microstructure. The thermal conductivity values of the foams were evaluated using a fluxmeter method. The effective thermal conductivities are comprised between 0.12 and 0.35 W m−1 K−1 for apparent densities ranging from 0.40 to 0.85 g cm−3. The corresponding calculated pore volume fractions are in the range of 65–85%. The interest of this material is that it combines the advantages of low bulk density and insulating properties with the characteristics of a geopolymer skeleton. Literature reports a very good fire and acid/base resistance, a low cost of production and the possibility of recycling industrial waste in the form of silica fume

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Growth of dense Ti3SiC2 MAX phase films elaborated at room temperature by aerosol deposition method

Piechowiak¹,

Henon²,

Durand-Panteix³

et al. 2014

Journal of the European Ceramic Society

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Porosity control of cold consolidated geomaterial foam: Temperature effect

Henon

Alzina

Absi

et al. 2012

Ceramics International

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Dense and highly textured coatings obtained by aerosol deposition method from Ti3SiC2 powder: Comparison to a dense material sintered by Spark Plasma Sintering

Henon

Piechowiak

Durand-Panteix

et al. 2015

Journal of the European Ceramic Society

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Joseph Henon

Potassium geopolymer foams made with silica fume pore forming agent for thermal insulation

Growth of dense Ti3SiC2 MAX phase films elaborated at room temperature by aerosol deposition method

Porosity control of cold consolidated geomaterial foam: Temperature effect

Dense and highly textured coatings obtained by aerosol deposition method from Ti3SiC2 powder: Comparison to a dense material sintered by Spark Plasma Sintering

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