Liew Yun-Ming scite author profile

This paper presents a comparative study of the characteristic of unfoamed and foamed geopolymers after exposure to elevated temperatures (200–800 °C). Unfoamed geopolymers were produced with Class F fly ash and sodium hydroxide and liquid sodium silicate. Porous geopolymers were prepared by foaming with hydrogen peroxide. Unfoamed geopolymers possessed excellent strength of 44.2 MPa and degraded 34% to 15 MPa in foamed geopolymers. The strength of unfoamed geopolymers decreased to 5 MPa with increasing temperature up to 800 °C. Foamed geopolymers behaved differently whereby they deteriorated to 3 MPa at 400 °C and increased up to 11 MPa at 800 °C. Even so, the geopolymers could withstand high temperature without any disintegration and spalling up to 800 °C. The formation of crystalline phases at higher temperature was observed deteriorating the strength of unfoamed geopolymers but enhance the strength of foamed geopolymers. In comparison, foamed geopolymer had better thermal resistance than unfoamed geopolymers as pores provide rooms to counteract the internal damage.

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Kaolin-based geopolymers with various NaOH concentrations

Cheng-Yong

Kamarudin

Bakri

et al. 2013

Int J Miner Metall Mater

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Liew Yun-Ming

Structure and properties of clay-based geopolymer cements: A review

Study on solids-to-liquid and alkaline activator ratios on kaolin-based geopolymers

Processing and characterization of calcined kaolin cement powder

Optimization of solids-to-liquid and alkali activator ratios of calcined kaolin geopolymeric powder

Effect of Curing Profile on Kaolin-based Geopolymers

Correlation between pore structure, compressive strength and thermal conductivity of porous metakaolin geopolymer

Thermal Resistance Variations of Fly Ash Geopolymers: Foaming Responses

Kaolin-based geopolymers with various NaOH concentrations

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