Flame resistance of geopolymer foam coatings for the fire protection of steel

This research investigates the fire resistance of novel geopolymer (GP) foams, based on alkali-activated metakaolin and silica fume (SF). Fresh GP foams are applied as coatings on steel plates. After one week curing, the foams are subjected to a flame burn-through test. Changes in their physico-chem...

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Veröffentlicht in:	Composites. Part B, Engineering Engineering, 2021-10, Vol.222, p.109045, Article 109045
Hauptverfasser:	Sarazin, Johan, Davy, Catherine A., Bourbigot, Serge, Tricot, Grégory, Hosdez, Jérôme, Lambertin, David, Fontaine, Gaëlle
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Sprache:	eng
Schlagworte:	Alkali activated cement Chemical Sciences Material chemistry Polymers Refractory cement Silica fume Stability Temperature
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container_title	Composites. Part B, Engineering
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creator	Sarazin, Johan Davy, Catherine A. Bourbigot, Serge Tricot, Grégory Hosdez, Jérôme Lambertin, David Fontaine, Gaëlle
description	This research investigates the fire resistance of novel geopolymer (GP) foams, based on alkali-activated metakaolin and silica fume (SF). Fresh GP foams are applied as coatings on steel plates. After one week curing, the foams are subjected to a flame burn-through test. Changes in their physico-chemical properties are characterized before and after fire test, mainly with XRD, quantitative MAS NMR, electron probe micro-analysis, quantitative X ray micro-computed tomography and heat conductivity. Results show that GP foams are excellent thermal barriers, providing up to 251 °C less than for uncoated steel plate. Their porosity ranges between 25 and 81%, for typical pore sizes d50 from 0.5 to 3.0 mm 29Si MAS NMR shows that the proportion of GP cement only decreases from 60-68% to 53–58% after fire. SF expands and creates small pores in the coating, which is favorable to decrease heat conductivity by a factor of 2 whatever the foam. •Novel GP foams based on MK + SF are formulated and characterized for fire resistance.•H2O2 and CTABr foam stabilizing agent provide a controlled porosity of 81%.•GP foams provide superior fire protection to steel in a burn-through scenario.•The amount of GP cement only decreases from 60-68% to 53–58% after fire test.•Due to SF expansion, heat conductivity of foams is reduced by a factor of 2.
doi_str_mv	10.1016/j.compositesb.2021.109045
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subjects	Alkali activated cement Chemical Sciences Material chemistry Polymers Refractory cement Silica fume Stability Temperature
title	Flame resistance of geopolymer foam coatings for the fire protection of steel
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