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Fire Resistance of Alkali Activated Geopolymer Foams Produced from Metakaolin and Na2O2

Xi Peng, Han Li, Shuai Qin, Liancong Wang

2020Materials47 citationsDOIOpen Access PDF

Abstract

This work aims to investigate the feasibility that alkali-based geopolymer foams produced from metakaolin and Na2O2 are applied for fire protection. Dry bulk density, porosity, mechanical strength, thermal conductivity, and fire resistance of the geopolymer foams are discussed as a function of the Na2O2 amounts. As Na2O2 content varies from 1% to 4%, dry bulk density, mechanical strength and thermal conductivity of the geopolymer foams approximately exhibit opposite trends with that of the porosity. At the later stage of the 3 h fire-resistance tests, the reverse-side temperatures of all tested samples were always maintained at 220–250 °C. Meanwhile, the amorphous skeleton structures have been converted to smooth ceramics during the high temperature processes, which is the main reason that the geopolymer foams possess a stable porous structure and excellent fire resistance. Therefore, we could conclude that alkali-activated geopolymer foams with extraordinary fire resistance have great potential for fire protection applications.

Topics & Concepts

MetakaolinGeopolymerMaterials sciencePorosityComposite materialCeramicFire resistanceThermal conductivityAmorphous solidCompressive strengthChemistryOrganic chemistryConcrete and Cement Materials ResearchInnovative concrete reinforcement materialsFire effects on concrete materials