Young’s modulus and thermophysical performances of bio-sourced materials based on date palm fibers

•Thermomechanical investigations of bio-sourced composite were interested.•Thermal resistance and time lag properties of composites were studied.•E of composites is mainly affected by the interfacial adhesion between components.•Effect of DPF sizes and loadings is highly significant on the stiffness...

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Bibliographic Details
Published in:Energy and buildings 2016-10, Vol.129, p.589-597
Main Author: Chikhi, Mourad
Format: Article
Language:English
Subjects:
Building materials
Date palm fibers (DPF)
Porosity
Thermal resistance
Young’s modulus
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Summary:•Thermomechanical investigations of bio-sourced composite were interested.•Thermal resistance and time lag properties of composites were studied.•E of composites is mainly affected by the interfacial adhesion between components.•Effect of DPF sizes and loadings is highly significant on the stiffness of gypsum.•DPF adding on gypsum increases both time lag and thermal resistance of composites. The present work is a part of a large project aimed at design and development of new composite materials containing date palm fibers (DPF) primarily suitable for thermal insulation in various sectors, especially in the building sector. On one hand, porosity (P) and Young’s modulus (E) of gypsum based composites reinforced with DPF were investigated. On other hand, thermal resistance and time lag of composites were also studied. The results showed that E of DPF reinforced gypsum materials is mainly affected by the interfacial adhesion between matrix and DPF. The effect of DPF sizes and loadings is highly significant on the stiffness of gypsum. It’s noted that the adding of DPF on gypsum induces an increase of both time lag and thermal resistance of composites. This new biocomposite can be used as a raw material for reinforcement gypsum materials in order to produce a friendly biocomposite materials to use for thermal insulation in buildings.
ISSN:0378-7788
DOI:10.1016/j.enbuild.2016.08.034