| Ambient and Elevated Temperature Geopolymerization
Behaviour of Class F Fly Ash |
S. K. Nath,* S. Mukherjee,1 S. Maitra2 and Sanjay Kumar
pages : 126-132
DOI : 10.1080/0371750X.2014.922428 |
| Abstract |
| Geopolymerization is the process, where synthetic alkali activated alumino-silicate material is produced by reaction
of a solid alumino-silicate with a highly concentrated aqueous alkali hydroxide or silicate solution. Depending on
the raw material selection and processing conditions, geopolymers can exhibit a wide variety of properties and
characteristics, including high compressive strength, fast or slow setting, acid resistance, and fire resistance. Fly
ash, a by-product of coal fired power plant, is produced during combustion of coal. Fly ash is a powdery, aluminosilicate
material along with minor impurities which is suitable for geopolymer reaction. The geopolymerization
behaviour of class F fly ash has been studied in a temperature range of 27o-55oC using isothermal conduction
calorimeter with different alkali concentrations. It was observed that the rate of reaction got intensified and increased
with temperature. Compressive strength of the resulting geopolymer was also found to increase with temperature
more significantly during early days. Attempt has been made to correlate the reaction with structure and properties. |
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