Influence of Sisal fiber’s treatment on the kinetics of hydration, morphological and thermophysical properties of the composite cementitious mortar

Currently, cement-based bio-composite is a relevant concept for researchers in the building. However, these researches highlighted some handicaps. Plant fibers are acting as a retarder in the setting time of the cement. In this study, Sisal fiber (SF) (4% by mass of cement) was subjected to differen...

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Bibliographic Details
Published in:MATEC web of conferences 2021, Vol.348, p.1013
Main Authors: Bahja, B., Tizliouine, A., Elouafi, A., Omari, L.H., Salhi, H., Chafi, M.
Format: Article
Language:English
Subjects:
Calcium carbonate
Cement hydration
cement-based composites
Fourier transforms
Hydration
hydration kinetics
Kinetics
morphological properties
Morphology
Mortars (material)
Paraffins
sisal fiber
Slaked lime
surface treatment
Thermal conductivity
Thermal diffusivity
Thermal resistance
Thermophysical properties
Vegetable fibers
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Summary:Currently, cement-based bio-composite is a relevant concept for researchers in the building. However, these researches highlighted some handicaps. Plant fibers are acting as a retarder in the setting time of the cement. In this study, Sisal fiber (SF) (4% by mass of cement) was subjected to different treatments to improve bio-composites hydration kinetics (KH) “tested by isotherm calorimetry”. The treatment slowed down both alkaline hydrolysis and mineralization of fiber cell walls by promoting the hydration of cement. This result was coherent with morphological properties. In fact, the images obtained by scanning electron microscopy (SEM) showed a tinier calcium layer around the (SF) treated with NaOH and Paraffin oil on the adhesion surface. The Fourier transform infrared spectroscopy (FTIR) test revealed a disparity in the peaks of the absorption strips of CaCO 3 and Ca(OH)2 and thus cement hydration. In addition, the tests results showed a decrease in thermal conductivity (λ) and volumetric heat capacity (ρ.CV) after treatment of (SF). Resistance (R Th ) and thermal diffusivity (α) slightly increased with treated fiber. Considering that, the bio-mortar with treated Sisal fiber can be promising material from an insulation point of view.
ISSN:2261-236X
2274-7214
2261-236X
DOI:10.1051/matecconf/202134801013