Effect of synthetic fibers on the properties of geopolymers based on non-heat treated phosphate mine tailing

In this paper, the use of synthetic fibers as reinforcement of geopolymer matrix produced from phosphate mine tailings was investigated. Non-heat-treated phosphate sludge (PS) was mixed with metakaolin (MK) in a ratio of 50% by weight, then blended with the alkaline activator to produce the geopolym...

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Published inMaterials chemistry and physics Vol. 260; p. 124147
Main Authors Haddaji, Younesse, Majdoubi, Hicham, Mansouri, Said, Tamraoui, Youssef, El bouchti, Mehdi, Manoun, Bouchaib, Oumam, Mina, Hannache, Hassan
Format Journal Article
LanguageEnglish
Published Lausanne Elsevier B.V 15.02.2021
Elsevier BV
Subjects
Bulk density
Ductile fracture
Fibers
Flexural properties
Flexural strength
Geopolymer composite
Geopolymers
Glass fiber
Glass fiber reinforced plastics
Heat treatment
Metakaolin
Microstructural analysis
Microstructure
Morphology
Particulate composites
Phosphate sludge
Polypropylene
Polypropylene fiber
Properties (attributes)
Sludge
Synthetic fibers
Tailings
Workability
Workability
Phosphate sludge
Geopolymer composite
Glass fiber
Polypropylene fiber
Flexural properties
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Summary:In this paper, the use of synthetic fibers as reinforcement of geopolymer matrix produced from phosphate mine tailings was investigated. Non-heat-treated phosphate sludge (PS) was mixed with metakaolin (MK) in a ratio of 50% by weight, then blended with the alkaline activator to produce the geopolymer slurry; after that, the fibers (polypropylene (PPF) and glass fibers (GF)) was added in quantities of 0.25, 0.50, 1 and 1.5%. The effect of the incorporated amount and fiber type on the geopolymer matrix in terms of fresh and handed state properties, such as workability, microstructure, morphology, flexural properties, and bulk density on the geopolymer composite was studied. The results indicate that the geopolymer composites’ flexural strength increases with increasing the amount of the fibers, it was also found that the inclusion of a maximum amount of 1% of polypropylene and glass fibers increased the flexural strength of the geopolymer composite by 278% and 26%, respectively. Besides, the addition of PPF leads to a highly ductile composite and provides a better fracture mode compared to GF. While, the partially and/or unreacted PS particles prevent the geopolymer composite from the considerable decrease of apparent density (slight loss of 5%), resulting from a reinforcing role as well. Microstructural analysis of the geopolymer composite shows a compact microstructure and an acceptable interfacial bond of the fibers with the geopolymeric binder. The current research findings indicate that PS-based geopolymers can reach high ductility with the appropriate reinforcement material. volume. [Display omitted] •New geopolymer composite based on non-heat treated phosphate sludge was synthesized.•Fresh and hardened state of the PS-based geopolymer composites were assessed.•Workability limits and flexural properties are defined by fiber type and aspect ratios.•Increasing fibers content significantly improves the composite flexural properties and post-peak behavior.
ISSN:0254-0584
1879-3312
DOI:10.1016/j.matchemphys.2020.124147