Evaluation of mechanical properties of biocomposites treated with date palm fiber

The utilization of environmentally friendly composite materials for building insulation offers a practical solution to reducing energy consumption. This study explores the application of novel biocomposites, comprising cement, sand, treated (DPFT) and raw (DPF) date palm fibers and their influence o...

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Published inJournal of engineered fibers and fabrics Vol. 18
Main Authors Benaniba, Samir, Djendel, Mokhtar, Kessal, Oussama, Abderraouf, Belkhadi A, Boubaaya, Rabah, Dridi, Meriem, Driss, Zied
Format Journal Article
LanguageEnglish
Published London, England SAGE Publications 01.01.2023
SAGE Publishing
Subjects
Bio-composite
mortar
thermal diffusivity
date palm fibers
thermal conductivity
mechanical properties
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Abstract The utilization of environmentally friendly composite materials for building insulation offers a practical solution to reducing energy consumption. This study explores the application of novel biocomposites, comprising cement, sand, treated (DPFT) and raw (DPF) date palm fibers and their influence on the thermal and mechanical properties of mortars. The samples were prepared with varying weight percentages of date palm fibers (0%− 20%), treated with NaOH, and possessing a fiber length of 7 mm. Water absorption, density, resistance to bending and compression, thermal conductivity and diffusivity were encompassed. The results indicate that incorporating treated fibers has a beneficial effect on the thermal and mechanical properties of the composite when compared to using raw fibers. Additionally, higher proportions of DPF lead to decreased thermal conductivity, diffusivity, and resistance to bending and compression, highlighting the positive impact of DPFT on the composite’s thermal and mechanical attributes. Notably, the treated fiber composite significantly enhances the insulation capacity of the mortar.
AbstractList The utilization of environmentally friendly composite materials for building insulation offers a practical solution to reducing energy consumption. This study explores the application of novel biocomposites, comprising cement, sand, treated (DPFT) and raw (DPF) date palm fibers and their influence on the thermal and mechanical properties of mortars. The samples were prepared with varying weight percentages of date palm fibers (0%− 20%), treated with NaOH, and possessing a fiber length of 7 mm. Water absorption, density, resistance to bending and compression, thermal conductivity and diffusivity were encompassed. The results indicate that incorporating treated fibers has a beneficial effect on the thermal and mechanical properties of the composite when compared to using raw fibers. Additionally, higher proportions of DPF lead to decreased thermal conductivity, diffusivity, and resistance to bending and compression, highlighting the positive impact of DPFT on the composite’s thermal and mechanical attributes. Notably, the treated fiber composite significantly enhances the insulation capacity of the mortar.
Author Dridi, Meriem
Driss, Zied
Benaniba, Samir
Boubaaya, Rabah
Abderraouf, Belkhadi A
Kessal, Oussama
Djendel, Mokhtar
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Keywords Bio-composite
mortar
thermal diffusivity
date palm fibers
thermal conductivity
mechanical properties
Language English
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Snippet The utilization of environmentally friendly composite materials for building insulation offers a practical solution to reducing energy consumption. This study...
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Title Evaluation of mechanical properties of biocomposites treated with date palm fiber
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