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The properties of fly ash based geopolymer mortars made with dune sand

Version 2 2024-06-04, 05:40
Version 1 2016-01-18, 18:42
conference contribution
posted on 2024-06-04, 05:40 authored by E Hunter, AH Korayem,, Z Pan, WH Duan, XL Zhao, Frank CollinsFrank Collins, J Sanjayan
Geopolymer cement utilises industrial by-products and is associated with low CO2 emissions. The use of dune sand as fine aggregate could reduce the environmental impact of mining activities. The present study is to examine the feasibility of using dune sand in geopolymer-based construction materials. The geopolymer mortars made with dune sand (DSM) were prepared by using alkali activators of different cations (Na, K and Na/K). In order to compare, the corresponding geopolymer mortars made with normal sand (NSM) were also prepared. It was found that dune sand has little influence on the strength of geopolymer mortars, especially for K based mortars. However, the alkali cation has significant influence on the compressive strength of geopolymer mortars. This influence was found to be correlated to porosity. Low compressive strength is associated with high porosity. For all investigated alkali cations, the tensile strengths of DSM compare favourably to those predicted by the relevant Standards for construction materials. Based on the experimental results, Australian dune sand can be used as fine aggregate for the production of geopolymer based construction materials.

History

Pagination

399-404

Location

Melbourne, Victoria

Start date

2012-11-14

End date

2012-11-16

ISBN-13

978-0-646-58589-5

Language

eng

Publication classification

E Conference publication, E1.1 Full written paper - refereed

Copyright notice

2012, ACUN-6 Monash University

Editor/Contributor(s)

Bai Y, Bandyopadhyay S, Zhao XL, Singh R, Rizkalla S

Title of proceedings

ACUN-6 2012 : Proceedings of the 6th International Composites Conference on Composites and Nanocomposites in Civil, Offshore and Mining Infrastructure

Event

ACUN-6 Composites and Nanocomposites in Civil, Offshore and Mining Infrastructure. International Composites Conference (6th : 2012 : Melbourne, Victoria)

Publisher

ACUN-6 Monash University

Place of publication

Melbourne, Vic.

Series

ACUN International Composites Conference