Performance Improved of a Lime and Hemp-Based Concrete through the Addition of Metakaolin

This work describes in detail the experimental investigation of the physico-mechanical properties of nonstructural hemp concrete (usually used as insulating wall material) when the Air-lime based Tradial PF70 binder is partially replaced using Metakaolin. The objective is to reduce the amount of fre...

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Veröffentlicht in:	Fluid dynamics & materials processing 2023, Vol.19 (5), p.1091-1113
Hauptverfasser:	Daher, Suzanne, Benazzouk, Amar, Ben Hamed, Ha飇el, Langlet, Thierry
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Sprache:	eng
Schlagworte:	Engineering Sciences
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container_title	Fluid dynamics & materials processing
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creator	Daher, Suzanne Benazzouk, Amar Ben Hamed, Ha飇el Langlet, Thierry
description	This work describes in detail the experimental investigation of the physico-mechanical properties of nonstructural hemp concrete (usually used as insulating wall material) when the Air-lime based Tradial PF70 binder is partially replaced using Metakaolin. The objective is to reduce the amount of free Ca2+ ions in the binder as these are responsible for the degradation of vegetables particles and can therefore induce a loss of mechanical perfor-mances. In order to assess the effectiveness of pozzolanic reaction, amounts of 0%, 10%, and 20% vol. of Air-lime binder were replaced by the Metakaolin material, while testing the mechanical properties of concrete specimens containing 200% and 300% of hemp particles. Through SEM and EDX analysis, a tight relationship has been found to exist between the Metakaolin content and physical-mechanical properties of specimen. The pozzolanic reaction consumes calcium hydroxide from binder to produce Hydrated Calcium Silicates (C-S-H) and in turn, this leads to a decrease in the pH-value of the pore solution which is the main factor responsible for hemp particle degradation.
doi_str_mv	10.32604/fdmp.2023.020348
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title	Performance Improved of a Lime and Hemp-Based Concrete through the Addition of Metakaolin
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