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Optimising GGBS-based ultra high-performance geopolymer mortar: an orthogonal array approach

Alameri, Mohammad / Joseph, Jovan / Mohamed Ali, M.S. / Elchalakani, Mohamed / Sheikh, Abdul Hamid

The research focuses on optimising the mix design of ultra high-performance geopolymer mortar by employing the Taguchi method’s orthogonal array parameters through a systematic experimental approach. Utilising an L9 orthogonal array, the investigation was structured into two phases, each examining a distinct set of variables across three levels to ascertain their impact on compressive strength. The optimal mix was characterised by a water to binder ratio of 0.28, a fibre volume of 3%, a silicon carbide to binder ratio of 0, and a superplasticizer to binder ratio of 2%. This mix achieved 126 MPa of compressive strength.

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Optimising GGBS-based ultra high-performance geopolymer mortar: an orthogonal array approach

Alameri, Mohammad / Joseph, Jovan / Mohamed Ali, M.S. / Elchalakani, Mohamed / Sheikh, Abdul Hamid

Abstract

Optimising GGBS-based ultra high-performance geopolymer mortar: an orthogonal array approach

Alameri, Mohammad / Joseph, Jovan / Mohamed Ali, M.S. / Elchalakani, Mohamed / Sheikh, Abdul Hamid

Abstract

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Titel:

Optimising GGBS-based ultra high-performance geopolymer mortar: an orthogonal array approach

Beteiligte:

Alameri, Mohammad (Autor:in) / Joseph, Jovan (Autor:in) / Mohamed Ali, M.S. (Autor:in) / Elchalakani, Mohamed (Autor:in) / Sheikh, Abdul Hamid (Autor:in)

Erschienen in:

Australian Journal of Structural Engineering ; 26 ; 95-110

Erscheinungsdatum:

03.04.2025

Format / Umfang:

16 pages

ISSN:

1328-7982 , 2204-2261

DOI:

https://doi.org/10.1080/13287982.2024.2375468

Medientyp:

Aufsatz (Zeitschrift)

Format:

Elektronische Ressource

Sprache:

Englisch

Schlagwörter:

Mix design , compressive strength , Taguchi method , L9 orthogonal array , W/B ratio , UHPGC

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