Mechanical and durability performance of metakaolin and fly ash-based geopolymers compared to cement systems

Mechanical and durability performance of metakaolin and fly ash-based geopolymers compared to cement systems

The environmental impact of Ordinary Portland Cement production, particularly its significant contribution to global CO2 emissions, has prompted the search for sustainable alternatives. This study investigates the durability and mechanical performance of metakaolin and fly ash-based geopolymer formu...

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Bibliographic Details
Main Authors: François El Inaty, Hussein Nasreddine, Assia Djerbi, Laurent Gautron, Mario Marchetti, Marc Quiertant, Othman Omikrine Metalssi
Format: Article
Language:English
Published: Elsevier 2025-09-01
Series:Results in Engineering
Subjects:
Geopolymer
Biomass
Metakaolin
Fly ash
Durability
Microstructure change
Online Access:http://www.sciencedirect.com/science/article/pii/S2590123025018596
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Summary:The environmental impact of Ordinary Portland Cement production, particularly its significant contribution to global CO2 emissions, has prompted the search for sustainable alternatives. This study investigates the durability and mechanical performance of metakaolin and fly ash-based geopolymer formulations compared to cement-based systems (CEM I and CEM III) under aggressive environmental conditions, without the use of heat curing. Among the six binder types tested, metakaolin-based MK II achieved a compressive strength of 33 MPa at 90 days—comparable to CEM III (35.2 MPa)—and the lowest water absorption (3.4 %). MK II also exhibited the highest durability, with superior resistance to carbonation, sulfate, and acid attacks, as well as minimal ultrasonic pulse velocity loss in the boiling test. Cement-based samples, particularly CEM I, displayed the best freeze-thaw resistance and lowest porosity increase after 150 cycles. Fire resistance testing classified MK I, MK II, and CEM III as A1-rated non-combustible materials. These results highlight the potential of metakaolin geopolymers—especially MK II—as sustainable, durable alternatives to cement, capable of performing in aggressive environments without additional energy input.
ISSN:2590-1230

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